tag:blogger.com,1999:blog-29008163655281474362024-03-21T19:08:33.393-07:00Textiles BlogAnonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.comBlogger32125tag:blogger.com,1999:blog-2900816365528147436.post-11288238279006373102016-10-10T11:46:00.002-07:002016-10-10T11:46:13.409-07:00Work Smarter Not Harder: 18 Productivity Tips That Boost Your Work Day Performance<div style="background-color: white; box-sizing: border-box; color: #333a42; font-family: "Noto Serif", Georgia, Times, serif; font-size: 15px; margin-bottom: 1em;">
This book is probably the best book I ever read before. It is not something that’s related to Webbing Suppliers or industrial strap – or any other related industry. It’s linked with life.<br style="box-sizing: border-box;" />This is book what I read before one year. Probably in the earlier stage of 2015 (don’t know exact month). In that stage of my life (and life other in our company) was… hm … don’t know how to say it. Probably the worst time in my life.<br style="box-sizing: border-box;" />We expected to be on the street in a month or two. I did not think that my work productivity can be better in future. This book introduces me a whole new concept of work productivity.</div>
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On one business meeting, my boss called me to talk with a generous person named Will. It was a big change for me because I’m not related to the whole concept in the company (my job is related to audience). Mr. Will from <a href="http://yourseosecret.com/" style="background: transparent; box-sizing: border-box; color: #78a3b9; text-decoration: none; transition: color 0.1s linear;">“YorSEOSecret Agency”</a> introduces to me how to get more done when to work remotely and how he get fired from the last job. He starts to work from home for his business.</div>
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He explained me how he lets distractions rule his day. I realize that I have the same problem and how it is impossible to focus on important projects. He introduces me a book called <a href="http://amzn.to/2dWM6uY" style="background: transparent; box-sizing: border-box; color: #78a3b9; text-decoration: none; transition: color 0.1s linear;">“Work Smarter Not Harder”</a>. It is a personal guide for helping you on your journey to increased productivity and better work habits.</div>
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After reading it, I can say that this helped me to achieve more at work. There was tips for questions to ask before next meeting, what was the core blocks of productivity, what to prioritize first, how to adopt my habits with my work day. I think that the best was checklist types for my job.</div>
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When my boss saw my working progress, we had met and after that, we made two kinds of lists for <a href="http://rosemonttextiles.com/" style="background: transparent; box-sizing: border-box; color: #78a3b9; text-decoration: none; transition: color 0.1s linear;">“Rosemont Textiles”</a>.</div>
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In 2 or 3 months we made big progress on the market as web distributor. The whole company adopts on this checklist procedure, and we made a big step in organizing.</div>
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I know that this was not sufficiently related article with Webbing Suppliers, but I work for one. This book helped me for my life perception view.</div>
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Work Smarter is an excellent resource for ideas on how to reduce the time distractions from work and increase your productivity. It is not the holy grail but when you read it, you think twice, and then you realize that this is easy to read book with many great tips from a person with experience.</div>
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If you want to find out more about my company <a href="https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel" style="background: transparent; box-sizing: border-box; color: #78a3b9; text-decoration: none; transition: color 0.1s linear;">“click here”</a>.</div>
Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-45464042755444337632016-10-07T02:44:00.003-07:002016-10-07T02:44:43.578-07:00HBR’s 10 Must Reads on Change Management (including featured article “Leading Change,” by John P. Kotter)<div style="background-color: white; box-sizing: border-box; color: #333a42; font-family: "Noto Serif", Georgia, Times, serif; font-size: 15px; margin-bottom: 1em;">
Hey, Rodger is here again. Once again I have a book review for you.</div>
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Probably this does is not article what my boss like to read, but it is a pure reality. I must say that this book and YourSEOSecret Agency are the two best things we can have before 12 or 13 months.</div>
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We in Rosemont Textiles as webbing supplier have a rough time in front of us before we look things from another angle. As you probably see from my last articles we have significant losses and probably we would have big fail. We read this book, and we did not have it – you don’t need to have it too.</div>
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John P. Kotter writes a book called „<a href="https://www.amazon.com/gp/product/1422158004/ref=as_li_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=1422158004&linkCode=as2&tag=secretkidfun-20&linkId=35f74246166a5580556c0e1b24ff7c24" style="background: transparent; box-sizing: border-box; color: #78a3b9; text-decoration: none; transition: color 0.1s linear;">HBR’s 10 Must Reads on Change Management (including featured article “Leading Change,” by John P. Kotter)</a>“ and if you read nothing else on change management, read these ten articles. We tried with Harvard-educated Business people; we even tried to rent people to do business for us. Nothing helped in that’s moves.</div>
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Then, we buy this book with 10 Must Reads on Change Managment, and they inspire us. This book (<a href="https://www.amazon.com/gp/product/1422158004/ref=as_li_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=1422158004&linkCode=as2&tag=secretkidfun-20&linkId=35f74246166a5580556c0e1b24ff7c24" style="background: transparent; box-sizing: border-box; color: #78a3b9; text-decoration: none; transition: color 0.1s linear;">HBR’s 10 Must Reads on Change Management (including featured article “Leading Change,” by John P. Kotter)</a>)can adapt in every business – not only for webbing suppliers. We hire a realy great person called Will from YourSEOSecret.com Agency and first we made a conference call with his stuff personal.</div>
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He proposes to invest $14 in paperback for this book. After we agree on all details, we start to read and to understand what he talked about. I know, we could do it ourself, but we did not realize from where to start – and there this agency come in. We did not invest significant money. After all, if this invest was move what bring us profit as webbing supplier then this invest worth it.</div>
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Trust me; their advice’s helped us to bring us more profit than we expected. Ok, I know it is time to write a review about a book.</div>
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In this book there are ten must critical reads on change management and you must read it because it will inspire you:</div>
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– Lead change through eight critical stages<br style="box-sizing: border-box;" />– Establish a sense of urgency<br style="box-sizing: border-box;" />– Overcome addiction to the status quo<br style="box-sizing: border-box;" />– Mobilize commitment<br style="box-sizing: border-box;" />– Silence naysayers<br style="box-sizing: border-box;" />– Minimize the pain of change<br style="box-sizing: border-box;" />– Concentrate resources<br style="box-sizing: border-box;" />– Motivate change when business is good</div>
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This collection of articles includes featured article „Leading Change: Why Transformation Efforts Fail“ by John P. Kotter and several other articles and interviews.</div>
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There are not so many things to say it, but this book helped me to have my job till now.<a href="https://www.amazon.com/gp/product/1422158004/ref=as_li_tl?ie=UTF8&camp=1789&creative=9325&creativeASIN=1422158004&linkCode=as2&tag=secretkidfun-20&linkId=35f74246166a5580556c0e1b24ff7c24" style="background: transparent; box-sizing: border-box; color: #78a3b9; text-decoration: none; transition: color 0.1s linear;">HBR’s 10 Must Reads on Change Management (including featured article “Leading Change,” by John P. Kotter)</a> series focuses on the core topics that every ambitious manager needs to know: leadership, strategy, change, managing people, and managing yourself.</div>
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Harvard Business Review has sorted through hundreds of articles and selected only the most essential reading on each topic. Each title includes timeless advice that will be relevant regardless of an ever-changing business environment.</div>
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Great review from Amazon buyer:<br style="box-sizing: border-box;" />Overall, an important book for those charged with oversight responsibilities in successfully implementing organizational change.</div>
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I will agree with it. As I said, this book helped me to save my job (Yes I get a raise because off it ;) )</div>
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If you need more information about our company just <a href="https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel" style="background: transparent; box-sizing: border-box; color: #78a3b9; text-decoration: none; transition: color 0.1s linear;">click here</a>!</div>
Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-68627126477454717492016-08-22T12:01:00.001-07:002016-08-22T12:01:44.279-07:00The Ultimate Guide to Business Process Management: Everything you need to know and how to apply it to your organizationHey, people.
Once again me Rodger have a review of one book. This time, it is all about BPM or Business Process Managment. In this book, you can find step by step guide about everything to know and how to apply to your organization.
Expert in this domain, Theodore Panagacos walks you through the entire discipline of BPM. You probably know that I read many things related to our business. Last year in <a href='https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel'>Rosemont Textiles</a> has busy, and we had a task to reorganize the whole firm and gets to a better financial situation.
Yeah, I know you think that we are trying to sell you book, but this is not about it. We changed the way to do business, and we had success with it. My job is to read and educate people in <a href='https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel'>Rosemont Textiles</a> and share things with you (and them) and to help you. I know that this books what I share with you helped us, and I hope that all this will assist you. Like it is helped us in <a href='https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel'>Rosemont Textiles</a>. <br><br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXTjNEY3NaakpJVGM&export=download" width='480'/><br><br>With this book, you can learn how to track your organization's strategy to govern processes, create a process culture and how to measure business performance. Probably the best of all that this is a conveniently sized book to work in your organization immediately. Some of our business managers told me that this BPM is not hard or difficult to establish in <a href='https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel'>Rosemont Textiles</a> or any other company. When they started to establish all ways in our company we learned a lot. We did not take a lot of research as Theodore Panagacos and because of that, we lose lots of success in our company. When all of our managers read this book and implement this easy to read a book into action, we feel like we started a new company with a big boom on the market again. This book has really good (and simple) explanation on details behind BPM. Our main business on seatbelt webbing exploded. Personally, I'm not this kind of business manager because my job is related to the audience, but after I read it, I see that this is easy to follow and well structured. This book covers all the business and technology aspects that make up BPM. There are lot's of frameworks, templates, business examples what you can combine with your business. If you trust me, you will get this book and learn how to do business in the proper way. You will hear from me again, and I will share you more details about doing business as we do it in <a href='https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel'>Rosemont Textiles</a>.<br><br>If you wish to take a look in the book visit this link:
http://amzn.to/2bc3qN1Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-73740178329438371462016-08-13T11:12:00.001-07:002016-08-13T11:27:51.185-07:00Small Time Operator: How to Start Your Own Business, Keep Your Books, Pay Your Taxes, and Stay Out of TroubleHello, one time again.
As you probably see I (Roger) have another review for You.
I have a mission to provide You all relevant information about our business and all books what helped us. Our core business with a <a href="https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel"><< Seat Belt >></a> is not so simple how people see it. We, in Rosemont Textiles started to invest more time to investigate how to change our business and bring it to level up. <br />
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Yes, I know this is gaming language, but we did it in this way. We take one more book and change our philosophy with an intention to start our business, keep our books and stay out of trouble. <br />
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This book helped us because we forgot what mean to start and don't lose finances on bad things. You probably see us as a enormous company. Okay, we are not a small company but also not „that big“ as you see us. This book is written for the fresh start and small businesses. You can use this information from the book even if you are an independent contractor, home business or internet business. <br />
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Yeah, now is the time to tell you that this book name is Small Time Operator. <br />
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Book link: https://goo.gl/FX2h2q<br />
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I can say for sure that this book is the most popular start-up guide probably ever written. <br />
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What can You find in it?<br />
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<img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXNEppUS1uaUhBVzQ&export=download" width="480" /><br />
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For start it is written on really simple way (easy to understand), how to get permits and licences, how to finance business, finding the right location for your business, how to create (and how to use it) business plan, hiring employees, local taxes, doing business on the Internet, handling insurances, contracts and much, much more.<br />
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We made a smart move and made a connection with YourSEOSecret.com Agency who helped us and directed us to this book. They invested their time for fair consultation price and helped us with easiest moves to follow. Probably is not on me to say it but do yourself a favor and get this book – you won't be disappointed.<br />
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Book link: https://goo.gl/FX2h2q<br />
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Find out ever more on <a href="https://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel"><< Seat Belt >></a>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-76167239501877317592016-08-05T01:32:00.001-07:002016-08-05T01:32:01.131-07:00The Personal MBA: Master the Art of BusinessOne more time we in <a href='https://www.igotbiz.com/rosemontbelt'>Rosemont Textiles</a> providing you one review of the book. <br><br>This time, it is all about Master The Art of Business. Book called „The Personal MBA: Master the Art of Business“.<br><br>Link to the book:
http://amzn.to/2aqlVtW<br><br>I personally think that Josh Kaufman made a remarkeable book with one theme what helped us in Rosemont Textiles. After reading this book I started to see things with other eyes. I created one thing that this book is telling about. Most books saying you can do this or that but you need to go to Harvard to see what is this about. <br><br>In this book, You can find really useful information and probably save hundreds of dollars. You can find really great stuff about PowerPoint presentations and unnecessary financial models what it takes to run a real business. <br><br>Josh Kaufman founded PersonalMBA.com as an alternative to the business school boondoggle. On his blog, you can find useful information and probably best business books and concepts of all time. We can say that with this book he shares the best essentials of entrepreneurship, marketing, sales, negotiation, productivity and much, much more. In this book, he reviews the most valuable business lessons into simple and memorable mental models that can be applied to everyday challenges. <br><br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXbTU4Q0hxUkNlZXc&export=download" width='480'/><br><br>We in <a href='https://www.igotbiz.com/rosemontbelt'>Rosemont Textiles</a> adopt his view in the Iron Law of the Market – Another word we understood why is every business limited by the size and quality and with a real model of advertising with YourSEOSecret.com succeed with real benefit of „doing real business“. Also with this YourSEOSecret Agency, we see The 12 Forms of Value from the book. <br><br>This Agency provided us best and financial acceptable value for our customers. We tried to make the balance for increase profitability – because YSEOS Agency knows how to support the price you can afford. They helped us with 4 methods to increase our revenue. With this book and-and this agency we get better results and when we connect agency with a book we can say that this was WIN WIN situation. True leaders are hiding in YourSEOSecret.com and they don't hide their skills and experience. They really help because they wish and need to succeed.<br><br>Read this book or hire YourSEOSecret Agency and You will know what I'm talking about. <br><br>Link to the book:
http://amzn.to/2aqlVtW<br><br>Till next article, I wish You all the best.Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-40600401720024848092016-07-30T12:56:00.001-07:002016-07-30T12:56:58.976-07:00Might you be curious about that represent our businesses' needs to the government?1 inch web material is what I write about, because it is what I know and love, so I am sure it will be a bit of a surprise to you that I only uncovered a few unusual bits of interest related to our inventory of industrial strap and webbing manufacturer.<br><br>Let me update you on this process, just one quick "FYI". Today's insights come from unusual bits that our team saw in our morning surf online. In fact, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>Amazingly enough, there is even more -- believe it or not -- to share on our primary site. So if you'd love better detailed content, then take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>1 inch web material</a>.<br><br>Okay, let's get started:
Good day my dearfriend, Roger Howard here, your commercial fabrics guy. My team and I are ready to share a great industrial fabrics article with you.<br><br>Give a shout if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to add all that very soon.<br><br>I have to say that I prefer the written word? That's enough delay, right? So here is what I am eager to share today. This article provides great background and insight to the science behind 1 1/2 inch seat belt webbing:<br><br>Our team knows it's just the way it is in the automotive webbing market that businessmen like us have to network and build out our associations each and every month. I was at our local Chamber of Commerce conference last month and met a new member recently transferred from the west coast. He's recently worked closely with poly web material matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br><br>Yes, for those who are loyal followers of my post, this is the part where I come out and admit that I had barely ever knew anything substantial about the Plastics Industry Trade Association (PITA). Again, yes, this is embarrassing, I know... but at least I'm getting on top of it now. But now, it seemed like a perfect opportunity to share an overview with you all ...just in case there were a few of you may be curious about the PITA.<br><br>Citation / Source: https://www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services. Find SPI online at www.plasticsindustry.org and www.inthehopper.org.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>A bit of a teaser, but, these are the news items I thought were worth mentioning
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Have a look at this page if you'd like to read more:
Citation / Source: https://www.plasticsindustry.org/AboutSPI/NewList.cfm?navItemNumber=1112<br><br>-- House Committee Moves Resolution to Block Persuader Rule — May 26, 2016
The House Committee on Education and the Workforce approved a resolution, H. J. Res. 87, to block the implementation of the new Department of Labor’s “persuader” rule under the Congressional Review Act.<br><br>-- Obama Administration Announces Significant Changes to the Overtime Rule — May 26, 2016
The Department of Labor (DOL) released its final overtime rule to be used in determining whether or not executive, administrative and professional (“EAP”) employees are exempt from overtime pay.<br><br>-- Highlights from the 2016 North American Flexible Film & Bag Conference — May 25, 2016
The 2016 North American Flexible Film & Bag Conference wrapped up this month in Houston after providing dozens of industry professionals with cutting edge insights into the world of plastic wraps and films.<br><br>-- Plastics Industry Applauds MTB Passage — May 20, 2016
The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>-- American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative — May 19, 2016
The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>-- SPI Welcomes First General Counsel, Kiran Mand — May 19, 2016
SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>-- OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses” — May 16, 2016
Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>-- OSHA Releases Background Materials for Potential Rulemaking Activity on Process Safety Management (PSM) — May 16, 2016
Background and supporting materials provided to the Small Business Advocacy Review (SBAR) Panel for the rulemaking are now available to the public in the rulemaking docket.<br><br>-- California Initiates Online Environmental Complaint System — May 9, 2016
The California Environmental Protection Agency (CalEPA) launched an online tool to make it easier for the public to report environmental problems anywhere in the state from their smartphones, tablets and computers.<br><br>-- Plastics Industry is Pleased with House Passage of Miscellaneous Tariff Bill — May 2, 2016
On Wednesday, April 27th the House of Representatives passed H.R. 4923, the American Manufacturing Competitiveness Act of 2016. Commonly referred to as the Miscellaneous Tariff Bill (MTB), this legislation outlines the process by which the International Trade Commission (ITC) and Congress shall receive, consider and approve duty suspensions and reductions.<br><br>-- SPI: The Plastics Industry Trade Association Concludes Inaugural Re|focus Summit & Expo — April 28, 2016
Yesterday, SPI: The Plastics Industry Trade Association concluded its inaugural Re|focus Recycling Summit & Expo which included prominent speakers from the plastics, recycling, food, beverage and consumer products industries. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since strap polyester work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I sought this one because of some of my notes related to the previous site. This is fundamental to our digital era, and, I've benefited a lot from getting up to speed on this manufacturing process, so I recommend this site highly.<br><br>Citation / Source: http://www.iasa-web.org/magnetic-tape-decomposition/polyester-urethanes<br><br>Polyester-urethanes are formed by reacting carboxylic acid and an alcohol to produce esters and water. This esterification reaction is reversible by a process of hydrolysis, in which water and esters are consumed, whilst acid and alcohol are produced (Fig.3). Being a reversible reaction, it is an equilibrium equation; in the presence of a certain moisture concentration, i.e. airborne humidity. polyesters will evolve or consume water from the surroundings until an equilibrium is reached.<br><br>The PE-U in tape binders are typically cross-linked co-polymers. The chains are arranged in lattice-shaped structures joined by ester linkages. These aliphatic esters which number roughly 5 or 10 times as many as the polyurethanes are much more prone to hydrolyse than the PET substrate.<br><br>. . .<br><br>Just one more, since this is a little one, and no post would be complete with out a strange article like this. I know a lot of sales professionals who love to share odd stories like this, so I highly recommend you check it out:<br><br>Citation / Source: http://schwartz.eng.auburn.edu/polyester/revival.html<br><br>The polyester leisure suit--a cliche that has outworn the fashion itself. When polyester was first introduced it was a coveted fabric used only in the most expensive garments. By the late 60s and early 70s, however, it became synonymous with cheap to buy and cheaply made--not to mention all of the horrendous colors that polyester suits were being made out of! <br><br>In 1980, the Tennessee Eastman Company began a campaign to revive polyester's image. They called it the "yes" in polYESter campaign and advertised through radio and television media. The Man-Made Fiber Producer's Association's (MMFPA) Polyester Fashion Council followed suit (no pun intended) and launched a similar campaign to help shed polyester's bad image. They focused on polyester's wash and go properties instead of trying to sell it as a cheap fabric.<br><br>(Interested? Be sure to follow our link, noted above, to see more!)<br><br>Interesting info, I'm sure you agree, yes? Yes, of course! Two-inch seat belt webbing material is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Believe it or not, we have even more to share on our branded site. When you're ready for better details, tap on the one right here: <a href='https://www.igotbiz.com/rosemontbelt'>1 inch web material</a>.<br><br>To be clear, one fast wrap-up note -- if I may -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>My guys have more articles prepared to share quite soon. Please watch this space my friends...<br><br>If I've not yet said it, "Cheers" my dear reader for following our blog and sending us your comments on these articles.<br><br>Let me say, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like seat belt webbing 2 inch.<br><br>Our team's keen desire to look across the web for secrets posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>We're looking forward to all you can share there.<br><br>To be bold, be sure to note if you are open to do a guest post about poly web material or web distributor. We'd appreciate it if you could better help explain these concepts with a few pictures of narrow seat belt webbing.<br><br>While we're here: Listen, if you loved the content today, will you do me a kind favor and be honest as to how much it is in line with your interests?
Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-86434262307120345822016-07-27T03:47:00.001-07:002016-07-27T03:47:43.103-07:00Who would pass up a fun tour of polyester products?Our executive summary -- let me explain -- today's insights come from unusual posts that my assistant and I swa in our morning surf online. Hey, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>We have even more -- let me be honest, my friends -- to share on our branded site. So if you'd love better detailed content, then tap on the one right here: <a href='https://www.igotbiz.com/rosemontbelt'>1 inch web material</a>.<br><br>Okay, let's get into it:<br><br>Yes my friends, I am your commercial fabrics guy, and I have yet more insightful applications of textiles to lay on you. Are you new to this group? Well then, Hello! Roger Howard here, I'm your quirky blogger, ready to share all we uncovered this week.<br><br><a href='https://www.igotbiz.com/rosemontbelt'>1 inch web material</a> is what I'm all about, so it may be a bit of a surprise to you that I only found two topics of interest: polyester manufacturer and webbing manufacturer.<br><br>As always, if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br><br>I have to say that I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br><br>That's enough delay, right? So here is what I am eager to share today. This article provides great background and insight to the science behind 2-inch webbing roll:<br><br>It's just the way it is in the automotive webbing industry that businessmen like us have to network and build out our connections each and every month. I was at our territorial Chamber of Commerce meeting last month and met a new member recently relocated from the west coast. He's recently worked closely with polyester distributor matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br><br>Citation / Source: www.fibersource.com/afma/afma.htm<br>The Exclusive Source of Information on Manufactured Fibers<br><br>The American Fiber Manufacturers Association, Inc. (AFMA) is the trade association for U.S. companies that manufacture synthetic and cellulosic fibers. The industry employs 27 thousand people and produces over 6 billion pounds of fiber in the U.S. Annual domestic sales exceed $8 billion. The membership is limited to U.S. producers that sell manufactured fiber in the open market. <br><br>The Association maintains close ties to other manufactured fiber trade associations worldwide.<br><br>AFMA has been in continuous operation since 1933, when it was established as the Rayon Institute with headquarters in New York. As new fibers entered the market, the Association was renamed the Man-Made Fiber Producers Association. In 1970, operations were moved to Washington as the focus grew from promotion to include advocacy on a broad range of regulatory and international trade issues. The current name for the Association was adopted in 1988.<br><br>The Association's Board of Directors is made up of senior executives from each of AFMA's member companies. Most AFMA programs are managed through committees and task groups of policy and technical experts from the companies. Permanent standing committees include the Trade and Statistics Committee, and the Technical Committee. The Technical Committee has task groups dealing with: Product Stewardship, Regulatory Affairs, Technical Communications, Toxicology, Product Flammability, and International Technical Affairs.<br><br>AFMA's statistics division, the Fiber Economics Bureau (FEB), collects and publishes trade and production data on the manufactured fiber industry. The FiberSource site is maintained by FEB.<br><br>AFMA offices are located at 3033 Wilson Boulevard, Suite 700, Arlington, VA 22201. We can be reached by phone at 703-875-0432; by FAX at 703-875-0907; and by Email. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since seatbelt webbing work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I specifically sought out this one because it came to mind while reading the previous site. This is fundamentation to our industrial webbing vertical market, and, to be honest, I've benefited a lot from networking with people in this AMPEF association, and recommend it highly.<br><br>Citations / Sources found on this domain www.ampef.com<br><br>When the world thinks of plastic films, it thinks of PET.<br><br>The global Association of Manufacturers of Polyester Film (AMPEF) welcomes you to our site. As a non-profit-making organization, our primary purpose is to inform and educate manufacturers, suppliers, end-users, and guests through our site about polyester (PET, PETF and BOPET) film and to encourage its use as a solution for a variety of markets throughout the world.<br><br>Within our pages, you will find general information on polyester packaging, specialty industrial, magnetic, metalized, and plastic and polymer-based applications, as well as details on our association's recycling and returnables programs. You will also find information on AMPEF's members and officers.<br><br>At AMPEF, our mission is to:<br><br> Promote the use of polyester film, while focusing on sustainable growth and environmental "greenness;"<br> Communicate and promote awareness about AMPEF and its activities;<br> Seek solutions to issues of general interest to all members, including health and safety and environmental topics;<br> Collate and disseminate overall industry statistics and other industry information, including industry news and developments; and<br> Improve communication within the industry, and its suppliers, customers, and consumers.<br><br>The object of the association, in the general interest and in all countries, is to:<br><br> Encourage the development, continuous improvement, and use of polyester film;<br> Study and understand the polyester film market;<br> Seek solutions to problems, particularly with respect to governmental standards and technical regulations;<br> Collect historical information and statistical data on polyester film; and<br> Maintain relationships with all similar organizations—public or private.<br><br>Polyester Film Applications<br><br>Packaging: Food packaging general uses, film for flexible pouches, peel-able seals, lids, snacks, barrier films, can laminations, and vacuum insulation panels<br><br>Industrial & Specialties: Hot stamping foil, release films, photo resist films, metallic yarns, adhesive tapes, plastic cards (including "smart" cards), labels, lamination films, brightness enhancement films (computer screens), solar/safety window films, medical test strips, and miscellaneous uses<br><br>Electrical: Motor wire and cable, transformer insulation films, capacitors, thermal printing tapes, membrane touch switches (computer and calculator keyboards), and flexible printed circuit films<br><br>Imaging: Microfilm, printing and pre-press films,color proofing, printing plates, drawing office drafting film, overhead transparencies, X-ray films, instant photos, business graphics, and wide format displays<br><br>Magnetics: Videotape, audio cassette tape, floppy disks, and advanced high-density computer storage media<br><br>Just one more, since this is a big one, and no commercial association overview would be complete with out it. This group is essential to our industrial webbing industry, and I know a lot of sales professionals who share leads through this association, so I highly recommend it.<br><br>Citation / Source www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>The association is structured to meet the diverse needs of the entire plastics industry. As SPI prepares for the future, member engagement in formulating strategy, developing priorities and supplying expertise is critical to our success. From the Executive Board to our three sector Councils (Equipment, Material Suppliers and Processors) and the variety of product/policy committees and self-funded groups, there is a strong foundation already in place to build SPI's new business blueprint. <br><br>To see up to date news, visit the site to read articles like these:<br><br>Plastics Industry Applauds MTB Passage<br>May 20, 2016<br>The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative<br>May 19, 2016<br>The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>SPI Welcomes First General Counsel, Kiran Mand<br>May 19, 2016<br>SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses”<br>May 16, 2016<br>Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>Interesting info, I'm sure you agree, yes? Yes, of course! Two-inch seat belt webbing material is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Let me be honest, my friends, we have even more to share on our main site. When you're ready for better details, take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>1 inch web material</a>.<br><br>To be clear, before we finish this post -- let me explain -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>Our love for online research and uncovering secrets and hidden bits posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>Please be sure to tell us what you love too!<br><br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXMGcxdGlqWWl5V0U&export=download" width='480'/><br><br>Since my assistant and I have more articles in the queue nearly ready to share in the days to come, so stay tuned!<br><br>If we have not yet said it, "Many thanks" for following our blog and sending us your comments and insights on this info.<br><br>Once again, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like narrow seat belt webbing.<br><br>*Hey* Listen, if you loved the information I shared here today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>To be bold, be sure to note if you are open to do a guest post about cargo webbing or supplier webbing. We'd appreciate it if you could better help explain these concepts with a few pictures of 2-inch webbing roll.<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-9653956047342989942016-07-06T14:14:00.001-07:002016-07-06T14:14:32.843-07:00Might you be curious about that represent our businesses' needs to the government?<a href='https://www.igotbiz.com/rosemontbelt'>1 inch web material</a> is what I write about, because it is what we've worked on all these years, so I am sure it will be a bit of a surprise to you that I only uncovered a few unusual bits of interest related to our inventory of cargo webbing and webbing polyester.<br><br>Let me explain this process, it's our executive summary. Today's excerpts come from these really fun bits that our team uncovered in our morning surf of the web. Hey, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>Amazingly enough, there is even more -- believe it or not -- to share on our main site. So if you'd love better detailed content, then take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>1 inch web material</a>.<br><br>Okay, let's get started:<br>Salutations my colleague, Roger Howard here, your commercial fabrics guy. My team and I are ready to open up a great industrial fabrics article with you.<br><br>Give a shout if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to add all that very soon.<br><br>I have to say that I prefer the written word? Either way let's dive in, okay, here is what I am eager to share today. This article provides great background and insight to the science behind two-inch seat belt webbing material:<br><br>Our team knows it's just the way it is in the automotive webbing market that entrepreneurs like us need to network and build out our relationships each and every workweek. I was at our local Chamber of Commerce conference last month and met an entrant recently relocated from the west coast. He's recently performed closely with polyester distributor matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br><br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXMGcxdGlqWWl5V0U&export=download" width='480'/><br><br>Yes, for those who are loyal followers of my post, this is the part where I come out and admit that I had not really knew anything substantial about the Plastics Industry Trade Association (PITA). Again, yes, this is humbling, I know... but at least I'm getting on top of it now. Either way, it seemed like a perfect opportunity to share an overview with you all ...just in case there were a few of you may be curious about the PITA.<br><br>Citation / Source: https://www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services. Find SPI online at www.plasticsindustry.org and www.inthehopper.org.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>A bit of a teaser, but, these are the news items I thought were worth mentioning <br>: )<br>Have a look at this page if you'd like to read more:<br>Citation / Source: https://www.plasticsindustry.org/AboutSPI/NewList.cfm?navItemNumber=1112<br><br>-- House Committee Moves Resolution to Block Persuader Rule — May 26, 2016<br> The House Committee on Education and the Workforce approved a resolution, H. J. Res. 87, to block the implementation of the new Department of Labor’s “persuader” rule under the Congressional Review Act.<br><br>-- Obama Administration Announces Significant Changes to the Overtime Rule — May 26, 2016<br> The Department of Labor (DOL) released its final overtime rule to be used in determining whether or not executive, administrative and professional (“EAP”) employees are exempt from overtime pay.<br><br>-- Highlights from the 2016 North American Flexible Film & Bag Conference — May 25, 2016<br> The 2016 North American Flexible Film & Bag Conference wrapped up this month in Houston after providing dozens of industry professionals with cutting edge insights into the world of plastic wraps and films.<br><br>-- Plastics Industry Applauds MTB Passage — May 20, 2016<br> The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>-- American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative — May 19, 2016<br> The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>-- SPI Welcomes First General Counsel, Kiran Mand — May 19, 2016<br> SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>-- OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses” — May 16, 2016<br> Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>-- OSHA Releases Background Materials for Potential Rulemaking Activity on Process Safety Management (PSM) — May 16, 2016<br> Background and supporting materials provided to the Small Business Advocacy Review (SBAR) Panel for the rulemaking are now available to the public in the rulemaking docket.<br><br>-- California Initiates Online Environmental Complaint System — May 9, 2016<br> The California Environmental Protection Agency (CalEPA) launched an online tool to make it easier for the public to report environmental problems anywhere in the state from their smartphones, tablets and computers.<br><br>-- Plastics Industry is Pleased with House Passage of Miscellaneous Tariff Bill — May 2, 2016<br> On Wednesday, April 27th the House of Representatives passed H.R. 4923, the American Manufacturing Competitiveness Act of 2016. Commonly referred to as the Miscellaneous Tariff Bill (MTB), this legislation outlines the process by which the International Trade Commission (ITC) and Congress shall receive, consider and approve duty suspensions and reductions.<br><br>-- SPI: The Plastics Industry Trade Association Concludes Inaugural Re|focus Summit & Expo — April 28, 2016<br> Yesterday, SPI: The Plastics Industry Trade Association concluded its inaugural Re|focus Recycling Summit & Expo which included prominent speakers from the plastics, recycling, food, beverage and consumer products industries. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since strap polyester work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I sought this one because of some of my notes related to the previous site. This is fundamental to our digital era, and, I've benefited a lot from getting up to speed on this manufacturing process, so I recommend this site highly.<br><br>Citation / Source: http://www.iasa-web.org/magnetic-tape-decomposition/polyester-urethanes<br><br>Polyester-urethanes are formed by reacting carboxylic acid and an alcohol to produce esters and water. This esterification reaction is reversible by a process of hydrolysis, in which water and esters are consumed, whilst acid and alcohol are produced (Fig.3). Being a reversible reaction, it is an equilibrium equation; in the presence of a certain moisture concentration, i.e. airborne humidity. polyesters will evolve or consume water from the surroundings until an equilibrium is reached.<br><br>The PE-U in tape binders are typically cross-linked co-polymers. The chains are arranged in lattice-shaped structures joined by ester linkages. These aliphatic esters which number roughly 5 or 10 times as many as the polyurethanes are much more prone to hydrolyse than the PET substrate.<br><br>. . .<br><br>Just one more, since this is a little one, and no post would be complete with out a strange article like this. I know a lot of sales professionals who love to share odd stories like this, so I highly recommend you check it out:<br><br>Citation / Source: http://schwartz.eng.auburn.edu/polyester/revival.html<br><br>The polyester leisure suit--a cliche that has outworn the fashion itself. When polyester was first introduced it was a coveted fabric used only in the most expensive garments. By the late 60s and early 70s, however, it became synonymous with cheap to buy and cheaply made--not to mention all of the horrendous colors that polyester suits were being made out of! <br><br>In 1980, the Tennessee Eastman Company began a campaign to revive polyester's image. They called it the "yes" in polYESter campaign and advertised through radio and television media. The Man-Made Fiber Producer's Association's (MMFPA) Polyester Fashion Council followed suit (no pun intended) and launched a similar campaign to help shed polyester's bad image. They focused on polyester's wash and go properties instead of trying to sell it as a cheap fabric.<br><br>(Interested? Be sure to follow our link, noted above, to see more!)<br><br>Fabulous info, correct? Yes, of course! 1.5 inch seat belt webbing is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Believe it or not, we have even more to share on our branded site. When you're ready for better details, click this little link: <a href='https://www.igotbiz.com/rosemontbelt'>1 inch web material</a>.<br><br>One more time, one fast wrap-up note -- if I may -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>My guys have more articles prepared to share quite soon. Please stay tuned!<br><br>In case I've not yet said it, "Many thanks" my dear reader for following our blog and sending us your comments on this info.<br><br>Once again, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like 1 1/2 inch seat belt webbing.<br><br>Our team's keen desire to look across the web for secrets posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>Please be sure to tell us what you love too!<br><br>If I may,be sure to note if you are open to do a guest post about industrial strap or web distributor. We'd appreciate it if you could better help explain these concepts with a few pictures of 1 1/2 inch seat belt webbing.<br><br>*Hey* Listen, for those who got a lot out of the information I shared here today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-90542594100935936772016-07-05T08:44:00.001-07:002016-07-05T08:44:43.868-07:00Have you ever wondered how planning commissions take decisions?My Friends, just before we get into everything ... I must give you the overview of what we're covering in this piece today.<br><br>These 3 stories detailed out below arrive from three different authors, who arrive from three very different perspectives, and no love is lost between these guys. To say they do not get along is a serious understatement!<br><br>Now, let's get started!<br><br>My highly favored visitors! 1.5 inch seat belt webbing<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXMGcxdGlqWWl5V0U&export=download" width='480'/><br><br>is on my brain, and today I (Roger Howard, of course!) bring you yet another very-nearly-brilliant post on material polyester my motive being to serve you with some awesome reads and connect you with various great materials.<br><br>And you've probably never witnessed one such as this ... because while it comes to nylon-competitors, these author show up from very divergent philosophical arenas.<br><br>I'm talking about more than just ill-tempered debates. The guys in this circumstance are NOT colleagues. In fact, you'll soon see exactly how their styles are very different, and suit their own purposes.<br><br>I tuned into this on the grounds that one of the authors was my mentor back then when I initially got out of school. So if quite possibly you have enthusiasm in political gossip and insider news, then connect with me on Linkedin and I'll share all the gory details.<br><br>That's right, high stakes, high tension, business situations focused on industrial drive articles like this:<br><br>Article #1: History Of Fibre Development<br>By Gaurav Doshi<br>Source: http://EzineArticles.com/expert/Gaurav_Doshi/56873<br><br>Different kinds of fibres are available now-a-days. These fibres are mainly divided into two categories natural and man made. They are also categorized by the generations as they were produced in the different years and known as first generation, second generation, third generation or fourth generation fibres.<br><br>The fibres generated first were the natural fibres. In this category cotton, wool, silk and all other animal and plant fibres are included. These fibres were introduced first 4000 years back but their uses were continued till 1940. All these fibres are known as first generation fibres. Very delicate handling is needed for these fibres. Fibres like silks and cottons have not good resistance against moths, wrinkles, wear and washings. So discovery of durable fibres was a greater need and about one century ago first synthesized fibres Rayon/Nylon were produced. These fibres are cheaper in comparison with natural ones. The development of these new fibres opened up fibre application to the various fields like medicine, aeronautics, home furnishing and modern apparels. Fibre engineers produced many new fibres by combining new synthetic fibres with the natural ones.<br><br>In the year 1664 the first attempt was done to make artificial fibre, but success was achieved after 200 years only. A Swiss chemist Audemars first patented artificial fibre in England in 1855. He produced that by dissolving the fibrous inner bark of the mulberry tree and produced cellulose by modifying it chemically. He made threads from the solution by dripping needle in the solution and then drawing them out. His attempt was good but he could not copy the silkworm. He had done experiments with the solution similar to Audemars solution.<br><br>French chemist Hilaire de Chardonnet was the first one to produce artificial silk commercially in the year 1889. Later on he was known as father of rayon industry because he was the first to produce rayon commercially on large scales.<br><br>All the attempts of producing artificial silk failed till the year 1900 but in the year 1910 Samuel Courtaulds and Co. Ltd, formed the American Viscose Company and did production of rayon.<br><br>Arthur D. Little of Boston made a film from acetate which is a cellulosic product in the year 1983 and in the year 1910 Henry Dreyfus and Camille made toilet articles and motion picture film from acetate in Switzerland. In the year 1924 Celanese Company made fibre from the acetate and it was the very first use of acetate in the textile industry. At that time the demand of rayon was high because it was available on the half of the price than raw silk to the textile manufacturers so U.S. rayon production flourished to meet those higher demands.<br><br>About Nylon<br><br>The miracle fibre called Nylon was invented in the September 1931 at the research laboratory of DuPont Company. They saw giant molecules of these polymers when they were working on Nylon '66' and Nylon '6'.<br><br>Nylon is completely synthetic fibre obtained from petrochemicals and is very different from Rayon and Acetate which are made up of cellulosic material of plants. The discovery of Nylon started a new era of manufactured fibres.<br><br>A change in life style<br><br>In the year 1939 commercial production of nylon was started by DuPont. In the very beginning on the experimental basis they used nylon in parachute fabric, in women's hosiery and in sewing thread. Nylon stockings were firstly visible to the public at the San Francisco Exposition in February 1939.<br><br>At the times of war, Asian silk was replaced by nylon in parachutes. The other uses of Nylon are in military supplies, ponchos, tyres, ropes, tents and in the high grade paper to make U.S. currency. At the time of war cotton was the most commonly used fibre and its uses were more then 80% than any other fibres. Another 20% is shared by wool and other manufactured fibres. August 1945 was the time of ending of war, at that time cotton shares 75% of the fibre market and rise of 15% was seen in the market of manufactured fibres.<br><br>One more thought while we have a second, my team and I have even more to share on our favorite web pages. When you're ready for better details, take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>Strong Web</a>.<br><br>The good man who penned this post has a huge volume of excellent posts on other intriguing topics, so be sure to pop over and read his content.<br><br>Okay -- jumping ahead to things related to my favorite topic (webbing company) -- check this out ->><br><br>On a geek-scale of 1-10,<br>this is clearly an 11!<br><br>Strangely enough, only a few of you will love this as deeply as do I.<br>None the less, this is at the deep end of the scientific pool.<br><br>Article #2: Polyurethanes History<br>By Waheed Hassan <br>Source: http://EzineArticles.com/expert/Waheed_Hassan/103462<br><br>The pioneering work on polyurethane polymers was conducted by Otto Bayer and his coworkers in 1937 at the laboratories of I.G. Farben in Leverkusen, Germany. They recognized that using the polyaddition principle to produce polyurethanes from liquid diisocyanates and liquid polyether or polyester diols seemed to point to special opportunities, especially when compared to already existing plastics that were made by polymerizing olefins, or by polycondensation. The new monomer combination also circumvented existing patents obtained by Wallace Carothers on polyesters.Initially, work focused on the production of fibres and flexible foams. With development constrained by World War II (when PU's were applied on a limited scale as aircraft coating), it was not until 1952 that polyisocyanates became commercially available. Commercial production of flexible polyurethane foam began in 1954, based on toluene diisocyanate (TDI) and polyester polyols. The invention of these foams (initially called imitation swiss cheese by the inventors) was thanks to water accidentally introduced in the reaction mix.<br><br>These materials were also used to produce rigid foams, gum rubber, and elastomers. Linear fibres were produced from hexamethylene diisocyanate (HDI) and 1,4-butanediol (BDO). The first commercially available polyether polyol, poly(tetramethylene ether) glycol), was introduced by DuPont in 1956 by polymerizing tetrahydrofuran. Less expensive polyalkylene glycols were introduced by BASF and Dow Chemical the following year, 1957. These polyether polyols offered technical and commercial advantages such as low cost, ease of handling, and better hydrolytic stability; and quickly supplanted polyester polyols in the manufacture of polyurethane goods. Another early pioneer in PU's was the Mobay corporation. In 1960 more than 45,000 tons of flexible polyurethane foams were produced. As the decade progressed, the availability of chlorofluoroalkane blowing agents, inexpensive polyether polyols, and methylene diphenyl diisocyanate (MDI) heralded the development and use of polyurethane rigid foams as high performance insulation materials.Rigid foams based on polymeric MDI (PMDI) offered better thermal stability and combustion characteristics than those based on TDI. In 1967, urethane modified polyisocyanurate rigid foams were introduced, offering even better thermal stability and flammability resistance to low density insulation products.<br><br>Also during the 1960s, automotive interior safety components such as instrument and door panels were produced by back-filling thermoplastic skins with semi-rigid foam. In 1969, Bayer AG exhibited an all plastic car in Dusseldorf, Germany. Parts of this car were manufactured using a new process called RIM, Reaction Injection Molding. RIM technology uses high-pressure impingement of liquid components followed by the rapid flow of the reaction mixture into a mold cavity. Large parts, such as automotive fascia and body panels, can be molded in this manner. Polyurethane RIM evolved into a number of different products and processes. Using diamine chain extenders and trimerization technology gave poly(urethane urea), poly(urethane isocyanurate), and polyurea RIM. The addition of fillers, such as milled glass, mica, and processed mineral fibres gave arise to RRIM, reinforced RIM, which provided improvements in flexural modulus (stiffness) and thermal stability. This technology allowed production of the first plastic-body automobile in the United Sates, the Pontiac Fiero, in 1983. Further improvements in flexural modulus were obtained by incorporating preplaced glass mats into the RIM mold cavity, also known as SRIM, or structural RIM. Starting in the early 1980s, water-blown microcellular flexible foam was used to mold gaskets for panel and radial seal air filters in the automotive industry. Since then, increasing energy prices and the desire to eliminate PVC plastisol from automotive applications have greatly increased market share. Costlier raw materials are offset by a significant decrease in part weight and in some cases, the elimination of metal end caps and filter housings.<br><br>Highly filled polyurethane elastomers, and more recently unfilled polyurethane foams are now used in high-temperature oil filter applications. Polyurethane foam (including foam rubber) is often made by adding small amounts of volatile materials, so-called blowing agents, to the reaction mixture. These simple volatile chemicals yield important performance characteristics, primarily thermal insulation. In the early 1990s, because of their impact on ozone depletion, the Montreal Protocol led to the greatly reduced use of many chlorine-containing blowing agents, such as trichlorofluoromethane (CFC-11). Other haloalkanes, such as the hydrochlorofluorocarbon 1,1-dichloro-1-fluoroethane (HCFC-141b), were used as interim replacements until their phase out under the IPPC directive on greenhouse gases in 1994 and by the Volatile Organic Compounds (VOC) directive of the EU in 1997 (See: Haloalkanes). By the late 1990s, the use of blowing agents such as carbon dioxide, pentane, 1,1,1,2-tetrafluoroethane (HFC-134a) and 1,1,1,3,3-pentafluoropropane (HFC-245fa) became more widespread in North America and the EU, although chlorinated blowing agents remained in use in many developing countries.<br><br>Building on existing polyurethane spray coating technology and polyetheramine chemistry, extensive development of two-component polyurea spray elastomers took place in the 1990s. Their fast reactivity and relative insensitivity to moisture make them useful coatings for large surface area projects, such as secondary containment, manhole and tunnel coatings, and tank liners. Excellent adhesion to concrete and steel is obtained with the proper primer and surface treatment. During the same period, new two-component polyurethane and hybrid polyurethane-polyurea elastomer technology was used to enter the marketplace of spray-in-place load bed liners. This technique for coating pickup truck beds and other cargo bays creates a durable, abrasion resistant composite with the metal substrate, and eliminates corrosion and brittleness associated with drop-in thermoplastic bed liners. The use of polyols derived from vegetable oils to make polyurethane products began garnishing attention beginning around 2004, partly due to the rising costs of petrochemical feedstocks and partially due to an enhanced public desire for environmentally friendly green products. One of the most vocal supporters of these polyurethanes made using natural oil polyols is the Ford Motor Company.<br><br>Article #3: Fabrics Used to Make Material in Today's Textile Industry - Silk<br>By Jeffrey Ware<br>Source: http://EzineArticles.com/expert/Jeffrey_Ware/146404<br><br>Choosing the fabric your clothing is made with is important. This choice can make the difference in the look, comfort, durability, or practicality of the purpose of the particular article of clothing. The choice of fabrics is never more important that the clothes you wear every day at work. Your work uniform must be comfortable yet durable. It must be stylish yet practical. The average person will spend more time wearing their uniform than any other article of clothing with maybe the exception of sleep clothing. The fabric your uniform is made from is important and with today's fabrics you have a wider choice than ever.<br><br>Every fabric used to manufacture clothing today has its own characteristics and uses. When choosing clothing as important as your uniform, it is important that you understand the characteristics of the different fabrics. This is the first in a series of articles where we will explore the different fabrics and manufacturing process of common fabrics.<br><br>We will discuss fabrics such as cotton, wool, nylon, polyester and many other natural and synthetic fabric materials. Information will be presented about the history, manufacturing methods, characteristics, and uses of the different fabrics. Information concerning the cares of fabrics will also be presented.<br><br>This is the second in my series of fabric characteristics (the first was about cotton) and again we will go way back to the beginning of another natural fabric, silk. Silk dates back as far as cotton as a material in which clothing and material were made from. Silk was a material that separated the common man from the elite population of early times. Evan today, silk material is commonly found used by the upper class of society.<br><br>History:<br><br>The exact history of silk is somewhat of a mystery. Historians say that silk production, called Sericulture, originated in China 10,000 years ago. However ancient Chinese legends contribute the origination of Sericulture to the Chinese empress Si Ling Chi who ruled in 2,600 BC.<br><br>The story goes that one day Empress Si Ling Chi was sitting under a Mulberry tree in her palace garden drinking some tea. A cocoon from a silkworm fell into her cup of hot tea. She watched as the silk fibers of the cocoon began to unravel in the hot liquid. She became recognized as the goddess of silk worms.<br><br>The production of silk slowly developed into manufacturing process in China by the 14th century. Silk production became a cornerstone of the Chinese economy where the silk was used for musical instruments, fishing lines and bowstrings. Silk was also used to pay the civil servants in China as a reward from the rulers. The Chinese also used ilk in foreign trade exchanging it for spices and jewels brought from India.<br><br>The Chinese kept the secret of silk production to themselves for more than two thousand years. It was so guarded that a penalty of death was placed on anyone found guilty of smuggling silkworm eggs, cocoons, or mulberry seeds out of the country. But buy the year of 200 BC the secret of silk had spread to Korea and then slowly throughout the rest of Asia and India.<br><br>It wasn't until the 13th century that silk production reached Italy when Persia sent 2000 skilled silk weavers. Those led to the production of silk throughout Europe. Even though silk production has spread worldwide, China is still the largest producer of the world's silk today.<br><br>Manufacturing process:<br><br>The manufacturing process of silk begins with the silkworm its natural ability to produce silk fiber and spin their cocoon with it. There are basically two types of silkworms. One is the silkworm that feeds on oak leaves and produce Tusha silk. The other, mulberry silk moth, produces the highest quality silk called Bombyx mori. This silkworm feeds on the leaves of the mulberry tree. The silkworms spin a cocoon that contains an average of 300-400 meters of silk fiber. It takes up to 5500 silkworms to produce 2lbs of raw silk fibers.<br><br>The production of the silkworm's cocoon to make silk filament is called sericulture. Sericulture is done under controlled conditions and environments on silk farms. The silk worms are raised from eggs and allowed to go through its entire life cycle. The optimal time for harvesting silk is at the cocoon stage.<br><br>The cocoons are harvested and sent to the factory called a filature. Here the cocoons are unwound into silk strands and collected on skeins. The operation consists of four separate operations:<br><br>o Sorting of Cocoons; Cocoons are sorted according to color, size, shape and texture.<br><br>o Softening; the sorted cocoons are immersed in a series of hot and cold solutions to soften the fibers to permit unwinding.<br><br>o Reeling the filament; consist of unwinding the cocoons and twisting the strands together to make a silk thread.<br><br>o Bailing; The silk thread is wrapped onto skeins and packed into small bundles called books. The books are put into bales and shipped to the silk mills where it is woven into material.<br>Characteristics:<br><br>Silk is a protein fiber which gives silk material its characteristics. Silk has a high tensile strength but won't stand up to heavy use or abrasions. Silk will become brittle when exposed to sunlight, high alkalinity, acid, or oily soils will breakdown silk fibers. The appearance of silk depends on the size of the silk yarn used to make the fabric. Large yarn may make the material appear more like cotton or a synthetic. Small well refined yarn will give the silk material the silky feel and look we expect.<br><br>Uses:<br><br>Silk is still today the primary material used to make our finest outerwear. Luxury clothing including fine silk suits and evening gowns are made of the finest silk material.<br><br>Other uses of silk material include:<br><br>o Women's and men's lingerie because of silk's softness and brilliant colours.<br>o Silk laces and tulles: Ideal for bridal gowns and veils<br>o Hosiery<br>o Scarves<br>o Ties<br>o Decorative articles such as bows and ribbons<br>o Furnishing and upholstery<br>o Insulation<br><br>Care:<br><br>For the most part silk garments should be dry cleaned to prevent damage of a breakdown of the fibers. Certain silks may be hand washed and line dried or tumble dried with low heat. Silk garments are also known as the wash and wear material because it is resistant to wrinkling.<br>Silk material is prone to moth attacks especially when in storage. Silk garments should be stored appropriately. They may be wrapped in a cotton fabric or other breathable fabric. Silk should not be stored in plastic or other sealed containers that can trap moister. This may lead to mildew and yellowing.<br><br>Chlorine bleach should never be used. This will cause the fabric to yellow and break down.<br>I sincerely hoped you enjoyed this article. Please look forward to my next article where we will discuss a synthetic fiber - polyester.<br><br>My friends wasn't that a remarkable read?<br><br>You're right, it was outrageously geeky, I know! But I am assured you are as inspired about strap polyester as I was while I stumbled upon it. There are various other in the Pandora's Box of awesome ideas, from where this content related to narrow seat belt webbing arrived and I am not going to hang back in delivering more of this to you. Although I am on the look out for some additional interesting information in this genre, I would enjoy your feedback on this one. Tell me what you think about the story, the pictures and the movie, and if it all was aligned with what you expected to uncover in this subject field.<br><br>*Also* listen, if you loved the information I shared here today, could I recruit you for a few minutes... and be honest as to the extent this is aligned with your interests?<br><br>Either way, please watch this space my friends... since there's so much more in the queue nearly ready to share in the days to come.<br><br>Wrapping up here, if I may, be sure to note if you can jump on a call with me to record an interview on material polyester or web strapping. I'd personally love your help in explaining these ideas with a few pictures of narrow seat belt webbing.<br><br>Cheers!<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-9148835781865904222016-07-02T12:44:00.001-07:002016-07-02T12:44:20.598-07:00Keen on synthetic industry details? Excellent! Let's look into the polyester associations.Narrow seat belt webbing is what I write about, because it is what we've worked on all these years, so I am sure it will seem odd that I only found these few topics of interest today related to our inventory of poly web material and strap polyester.<br><br>Let me explain this process, just one quick "FYI". Today's excerpts come from experts' bits that my assistant and I saw in our daily investigations online. Hey, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>Amazingly enough, there is even more -- believe it or not -- to share on our primary site. So if you'd love better detailed content, then click this little link: <a href='http://fancy-pants-fashions.com/keen-on-synthetic-industry-details-excellent-lets-look-into-the-polyester-associations-2/'>Narrow material</a>.<br><br>Okay, let's get started:<br>Good day my dearcolleague, Roger Howard here, your commercial fabrics guy. My team and I are ready to deliver to you a great textiles article with you.<br><br>As always, if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to add all that very soon.<br><br>I am biased toward the written word? Either way let's dive in, okay, here is what I am eager to share today. This article provides great background and insight to the science behind 1 inch web material:<br><br>Our team knows it's just the way it is in the industrial strap business sector that business owners like us have to network and build out our connections each and every workweek. I was at our neighborhood Chamber of Commerce meeting last month and met a new member recently relocated from the west coast. He's recently performed closely with automotive webbing matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br>.<br>Yes, for those who are loyal followers of my post, this is the part where I come out and disclose that I had barely ever knew anything substantial about the Plastics Industry Trade Association (PITA). Again, yes, this is embarrassing, I know... but at least I'm getting on top of it now. Either way, it seemed like a perfect opportunity to share an overview with you all ...just in case there were a few of you may be curious about the PITA.<br><br>Citation / Source: https://www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services. Find SPI online at www.plasticsindustry.org and www.inthehopper.org.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>A bit of a teaser, but, these are the news items I thought were worth mentioning <br>: )<br>Have a look at this page if you'd like to read more:<br>Citation / Source: https://www.plasticsindustry.org/AboutSPI/NewList.cfm?navItemNumber=1112<br><br>-- House Committee Moves Resolution to Block Persuader Rule — May 26, 2016<br> The House Committee on Education and the Workforce approved a resolution, H. J. Res. 87, to block the implementation of the new Department of Labor’s “persuader” rule under the Congressional Review Act.<br><br>-- Obama Administration Announces Significant Changes to the Overtime Rule — May 26, 2016<br> The Department of Labor (DOL) released its final overtime rule to be used in determining whether or not executive, administrative and professional (“EAP”) employees are exempt from overtime pay.<br><br>-- Highlights from the 2016 North American Flexible Film & Bag Conference — May 25, 2016<br> The 2016 North American Flexible Film & Bag Conference wrapped up this month in Houston after providing dozens of industry professionals with cutting edge insights into the world of plastic wraps and films.<br><br>-- Plastics Industry Applauds MTB Passage — May 20, 2016<br> The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>-- American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative — May 19, 2016<br> The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>-- SPI Welcomes First General Counsel, Kiran Mand — May 19, 2016<br> SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>-- OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses” — May 16, 2016<br> Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>-- OSHA Releases Background Materials for Potential Rulemaking Activity on Process Safety Management (PSM) — May 16, 2016<br> Background and supporting materials provided to the Small Business Advocacy Review (SBAR) Panel for the rulemaking are now available to the public in the rulemaking docket.<br><br>-- California Initiates Online Environmental Complaint System — May 9, 2016<br> The California Environmental Protection Agency (CalEPA) launched an online tool to make it easier for the public to report environmental problems anywhere in the state from their smartphones, tablets and computers.<br><br>-- Plastics Industry is Pleased with House Passage of Miscellaneous Tariff Bill — May 2, 2016<br> On Wednesday, April 27th the House of Representatives passed H.R. 4923, the American Manufacturing Competitiveness Act of 2016. Commonly referred to as the Miscellaneous Tariff Bill (MTB), this legislation outlines the process by which the International Trade Commission (ITC) and Congress shall receive, consider and approve duty suspensions and reductions.<br><br>-- SPI: The Plastics Industry Trade Association Concludes Inaugural Re|focus Summit & Expo — April 28, 2016<br> Yesterday, SPI: The Plastics Industry Trade Association concluded its inaugural Re|focus Recycling Summit & Expo which included prominent speakers from the plastics, recycling, food, beverage and consumer products industries. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since webbing manufacturer work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I sought this one because of some of my notes related to the previous site. This is fundamental to our digital era, and, I've benefited a lot from getting up to speed on this manufacturing process, so I recommend this site highly.<br><br>Citation / Source: http://www.iasa-web.org/magnetic-tape-decomposition/polyester-urethanes<br><br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXMGcxdGlqWWl5V0U&export=download" width='480'/><br><br>Polyester-urethanes are formed by reacting carboxylic acid and an alcohol to produce esters and water. This esterification reaction is reversible by a process of hydrolysis, in which water and esters are consumed, whilst acid and alcohol are produced (Fig.3). Being a reversible reaction, it is an equilibrium equation; in the presence of a certain moisture concentration, i.e. airborne humidity. polyesters will evolve or consume water from the surroundings until an equilibrium is reached.<br><br>The PE-U in tape binders are typically cross-linked co-polymers. The chains are arranged in lattice-shaped structures joined by ester linkages. These aliphatic esters which number roughly 5 or 10 times as many as the polyurethanes are much more prone to hydrolyse than the PET substrate.<br><br>. . .<br><br>Just one more, since this is a little one, and no post would be complete with out a strange article like this. I know a lot of sales professionals who love to share odd stories like this, so I highly recommend you check it out:<br><br>Citation / Source: http://schwartz.eng.auburn.edu/polyester/revival.html<br><br>The polyester leisure suit--a cliche that has outworn the fashion itself. When polyester was first introduced it was a coveted fabric used only in the most expensive garments. By the late 60s and early 70s, however, it became synonymous with cheap to buy and cheaply made--not to mention all of the horrendous colors that polyester suits were being made out of! <br><br>In 1980, the Tennessee Eastman Company began a campaign to revive polyester's image. They called it the "yes" in polYESter campaign and advertised through radio and television media. The Man-Made Fiber Producer's Association's (MMFPA) Polyester Fashion Council followed suit (no pun intended) and launched a similar campaign to help shed polyester's bad image. They focused on polyester's wash and go properties instead of trying to sell it as a cheap fabric.<br><br>(Interested? Be sure to follow our link, noted above, to see more!)<br><br>Interesting info, I'm sure you agree, yes? Yes, of course! Narrow fabric seat belt web is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Believe it or not, we have even more to share on our main site. When you're ready for better details, click this little link: <a href='http://fancy-pants-fashions.com/keen-on-synthetic-industry-details-excellent-lets-look-into-the-polyester-associations-2/'>Narrow material</a>.<br><br>To be clear, one fast wrap-up note -- if I may -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>My guys have more articles prepared to share quite soon. Please stay tuned!<br><br>In case we have not yet said it, "Cheers" for following our blog and sending us your comments on this info.<br><br>Let me say -- to remind you :-) -- I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like narrow seat belt webbing.<br><br>This passion about online investigations and uncovering secrets posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>We're looking forward to all you can share there.<br><br>To be bold, be sure to note if you are open to do a guest post about poly web material or web strapping. We'd appreciate it if you could better help explain these concepts with a few pictures of narrow fabric seat belt web.<br><br>*Hey* Listen, for those who got a lot out of the information I shared here today, will you do me a kind favor and be honest as to how much it is in line with your interests?Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-71682037935494794852016-06-29T02:26:00.001-07:002016-06-29T02:26:17.944-07:00You've likely never seen one like this...Greetings, just before we enter all that ... I must give you the overview of what we're getting into in this segment now.<br><br>Our 3 stories detailed out below are from three different authors, who come from three super-different ideals, and no love is lost between these guys. To say they do not get along is a serious understatement, okay?!<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXWm5vYVZRbDV0WUU&export=download" width='480'/><br><br><br>Finally, let's get into it!<br><br>My precious scholars! seat belt webbing 2 inch<br>is certainly on my brain, and today I (Roger Howard, of course!) bring you still one other very-nearly-brilliant report on cargo webbing my intention being to serve you with a number of awesome reads and connect you with some great resources.<br><br>And you've in all probability never come across one like this ... because when it comes to nylon-competitors, these author show up from very different backgrounds.<br><br>I'm referring to more than just ill-tempered debates. The guys in this situation are NOT colleagues. In fact, you'll soon see exactly how their styles are driven by various business needs, and are written from wildly different business goals.<br><br>I tuned into this due to the fact that one of the authors was actually my answer man back then when I initially got out of university. So if quite possibly you have enthusiasm in political gossip and insider news, then connect with me on Linkedin and I'll share all the gory details.<br><br>Yep, high stakes, high stress, business things focused on manufacturing drive things like this:<br><br>Article #1: History Of Fibre Development<br>By Gaurav Doshi<br>Source: http://EzineArticles.com/expert/Gaurav_Doshi/56873<br><br>Different kinds of fibres are available now-a-days. These fibres are mainly divided into two categories natural and man made. They are also categorized by the generations as they were produced in the different years and known as first generation, second generation, third generation or fourth generation fibres.<br><br>The fibres generated first were the natural fibres. In this category cotton, wool, silk and all other animal and plant fibres are included. These fibres were introduced first 4000 years back but their uses were continued till 1940. All these fibres are known as first generation fibres. Very delicate handling is needed for these fibres. Fibres like silks and cottons have not good resistance against moths, wrinkles, wear and washings. So discovery of durable fibres was a greater need and about one century ago first synthesized fibres Rayon/Nylon were produced. These fibres are cheaper in comparison with natural ones. The development of these new fibres opened up fibre application to the various fields like medicine, aeronautics, home furnishing and modern apparels. Fibre engineers produced many new fibres by combining new synthetic fibres with the natural ones.<br><br>In the year 1664 the first attempt was done to make artificial fibre, but success was achieved after 200 years only. A Swiss chemist Audemars first patented artificial fibre in England in 1855. He produced that by dissolving the fibrous inner bark of the mulberry tree and produced cellulose by modifying it chemically. He made threads from the solution by dripping needle in the solution and then drawing them out. His attempt was good but he could not copy the silkworm. He had done experiments with the solution similar to Audemars solution.<br><br>French chemist Hilaire de Chardonnet was the first one to produce artificial silk commercially in the year 1889. Later on he was known as father of rayon industry because he was the first to produce rayon commercially on large scales.<br><br>All the attempts of producing artificial silk failed till the year 1900 but in the year 1910 Samuel Courtaulds and Co. Ltd, formed the American Viscose Company and did production of rayon.<br><br>Arthur D. Little of Boston made a film from acetate which is a cellulosic product in the year 1983 and in the year 1910 Henry Dreyfus and Camille made toilet articles and motion picture film from acetate in Switzerland. In the year 1924 Celanese Company made fibre from the acetate and it was the very first use of acetate in the textile industry. At that time the demand of rayon was high because it was available on the half of the price than raw silk to the textile manufacturers so U.S. rayon production flourished to meet those higher demands.<br><br>About Nylon<br><br>The miracle fibre called Nylon was invented in the September 1931 at the research laboratory of DuPont Company. They saw giant molecules of these polymers when they were working on Nylon '66' and Nylon '6'.<br><br>Nylon is completely synthetic fibre obtained from petrochemicals and is very different from Rayon and Acetate which are made up of cellulosic material of plants. The discovery of Nylon started a new era of manufactured fibres.<br><br>A change in life style<br><br>In the year 1939 commercial production of nylon was started by DuPont. In the very beginning on the experimental basis they used nylon in parachute fabric, in women's hosiery and in sewing thread. Nylon stockings were firstly visible to the public at the San Francisco Exposition in February 1939.<br><br>At the times of war, Asian silk was replaced by nylon in parachutes. The other uses of Nylon are in military supplies, ponchos, tyres, ropes, tents and in the high grade paper to make U.S. currency. At the time of war cotton was the most commonly used fibre and its uses were more then 80% than any other fibres. Another 20% is shared by wool and other manufactured fibres. August 1945 was the time of ending of war, at that time cotton shares 75% of the fibre market and rise of 15% was seen in the market of manufactured fibres.<br><br>And before we go too far into this post, my team and I have even more to share on our favorite web pages. When you're ready for better details, tap on the one right here: <a href='http://tucando.com/United+States/PA/Philadelphia/Rosemont+Textiles+Automotive+Seat+Belt+Aftermarket+Material+Wholesale'>Strap webbing</a>.<br><br>Check out more great details at our website!<br><br>Now -- lets spring ahead to things related to my favorite topic (strap webbing) -- check this out ->><br><br>In our geek-scale of 1-10,<br>this is clearly an 11!<br><br>Strangely enough, only a few of you will love this as deeply as do I.<br>None the less, this is at the deep end of the scientific pool.<br><br>Article #2: Polyurethanes History<br>By Waheed Hassan <br>Source: http://EzineArticles.com/expert/Waheed_Hassan/103462<br><br>The pioneering work on polyurethane polymers was conducted by Otto Bayer and his coworkers in 1937 at the laboratories of I.G. Farben in Leverkusen, Germany. They recognized that using the polyaddition principle to produce polyurethanes from liquid diisocyanates and liquid polyether or polyester diols seemed to point to special opportunities, especially when compared to already existing plastics that were made by polymerizing olefins, or by polycondensation. The new monomer combination also circumvented existing patents obtained by Wallace Carothers on polyesters.Initially, work focused on the production of fibres and flexible foams. With development constrained by World War II (when PU's were applied on a limited scale as aircraft coating), it was not until 1952 that polyisocyanates became commercially available. Commercial production of flexible polyurethane foam began in 1954, based on toluene diisocyanate (TDI) and polyester polyols. The invention of these foams (initially called imitation swiss cheese by the inventors) was thanks to water accidentally introduced in the reaction mix.<br><br>These materials were also used to produce rigid foams, gum rubber, and elastomers. Linear fibres were produced from hexamethylene diisocyanate (HDI) and 1,4-butanediol (BDO). The first commercially available polyether polyol, poly(tetramethylene ether) glycol), was introduced by DuPont in 1956 by polymerizing tetrahydrofuran. Less expensive polyalkylene glycols were introduced by BASF and Dow Chemical the following year, 1957. These polyether polyols offered technical and commercial advantages such as low cost, ease of handling, and better hydrolytic stability; and quickly supplanted polyester polyols in the manufacture of polyurethane goods. Another early pioneer in PU's was the Mobay corporation. In 1960 more than 45,000 tons of flexible polyurethane foams were produced. As the decade progressed, the availability of chlorofluoroalkane blowing agents, inexpensive polyether polyols, and methylene diphenyl diisocyanate (MDI) heralded the development and use of polyurethane rigid foams as high performance insulation materials.Rigid foams based on polymeric MDI (PMDI) offered better thermal stability and combustion characteristics than those based on TDI. In 1967, urethane modified polyisocyanurate rigid foams were introduced, offering even better thermal stability and flammability resistance to low density insulation products.<br><br>Also during the 1960s, automotive interior safety components such as instrument and door panels were produced by back-filling thermoplastic skins with semi-rigid foam. In 1969, Bayer AG exhibited an all plastic car in Dusseldorf, Germany. Parts of this car were manufactured using a new process called RIM, Reaction Injection Molding. RIM technology uses high-pressure impingement of liquid components followed by the rapid flow of the reaction mixture into a mold cavity. Large parts, such as automotive fascia and body panels, can be molded in this manner. Polyurethane RIM evolved into a number of different products and processes. Using diamine chain extenders and trimerization technology gave poly(urethane urea), poly(urethane isocyanurate), and polyurea RIM. The addition of fillers, such as milled glass, mica, and processed mineral fibres gave arise to RRIM, reinforced RIM, which provided improvements in flexural modulus (stiffness) and thermal stability. This technology allowed production of the first plastic-body automobile in the United Sates, the Pontiac Fiero, in 1983. Further improvements in flexural modulus were obtained by incorporating preplaced glass mats into the RIM mold cavity, also known as SRIM, or structural RIM. Starting in the early 1980s, water-blown microcellular flexible foam was used to mold gaskets for panel and radial seal air filters in the automotive industry. Since then, increasing energy prices and the desire to eliminate PVC plastisol from automotive applications have greatly increased market share. Costlier raw materials are offset by a significant decrease in part weight and in some cases, the elimination of metal end caps and filter housings.<br><br>Highly filled polyurethane elastomers, and more recently unfilled polyurethane foams are now used in high-temperature oil filter applications. Polyurethane foam (including foam rubber) is often made by adding small amounts of volatile materials, so-called blowing agents, to the reaction mixture. These simple volatile chemicals yield important performance characteristics, primarily thermal insulation. In the early 1990s, because of their impact on ozone depletion, the Montreal Protocol led to the greatly reduced use of many chlorine-containing blowing agents, such as trichlorofluoromethane (CFC-11). Other haloalkanes, such as the hydrochlorofluorocarbon 1,1-dichloro-1-fluoroethane (HCFC-141b), were used as interim replacements until their phase out under the IPPC directive on greenhouse gases in 1994 and by the Volatile Organic Compounds (VOC) directive of the EU in 1997 (See: Haloalkanes). By the late 1990s, the use of blowing agents such as carbon dioxide, pentane, 1,1,1,2-tetrafluoroethane (HFC-134a) and 1,1,1,3,3-pentafluoropropane (HFC-245fa) became more widespread in North America and the EU, although chlorinated blowing agents remained in use in many developing countries.<br><br>Building on existing polyurethane spray coating technology and polyetheramine chemistry, extensive development of two-component polyurea spray elastomers took place in the 1990s. Their fast reactivity and relative insensitivity to moisture make them useful coatings for large surface area projects, such as secondary containment, manhole and tunnel coatings, and tank liners. Excellent adhesion to concrete and steel is obtained with the proper primer and surface treatment. During the same period, new two-component polyurethane and hybrid polyurethane-polyurea elastomer technology was used to enter the marketplace of spray-in-place load bed liners. This technique for coating pickup truck beds and other cargo bays creates a durable, abrasion resistant composite with the metal substrate, and eliminates corrosion and brittleness associated with drop-in thermoplastic bed liners. The use of polyols derived from vegetable oils to make polyurethane products began garnishing attention beginning around 2004, partly due to the rising costs of petrochemical feedstocks and partially due to an enhanced public desire for environmentally friendly green products. One of the most vocal supporters of these polyurethanes made using natural oil polyols is the Ford Motor Company.<br><br>Article #3: Fabrics Used to Make Material in Today's Textile Industry - Silk<br>By Jeffrey Ware<br>Source: http://EzineArticles.com/expert/Jeffrey_Ware/146404<br><br>Choosing the fabric your clothing is made with is important. This choice can make the difference in the look, comfort, durability, or practicality of the purpose of the particular article of clothing. The choice of fabrics is never more important that the clothes you wear every day at work. Your work uniform must be comfortable yet durable. It must be stylish yet practical. The average person will spend more time wearing their uniform than any other article of clothing with maybe the exception of sleep clothing. The fabric your uniform is made from is important and with today's fabrics you have a wider choice than ever.<br><br>Every fabric used to manufacture clothing today has its own characteristics and uses. When choosing clothing as important as your uniform, it is important that you understand the characteristics of the different fabrics. This is the first in a series of articles where we will explore the different fabrics and manufacturing process of common fabrics.<br><br>We will discuss fabrics such as cotton, wool, nylon, polyester and many other natural and synthetic fabric materials. Information will be presented about the history, manufacturing methods, characteristics, and uses of the different fabrics. Information concerning the cares of fabrics will also be presented.<br><br>This is the second in my series of fabric characteristics (the first was about cotton) and again we will go way back to the beginning of another natural fabric, silk. Silk dates back as far as cotton as a material in which clothing and material were made from. Silk was a material that separated the common man from the elite population of early times. Evan today, silk material is commonly found used by the upper class of society.<br><br>History:<br><br>The exact history of silk is somewhat of a mystery. Historians say that silk production, called Sericulture, originated in China 10,000 years ago. However ancient Chinese legends contribute the origination of Sericulture to the Chinese empress Si Ling Chi who ruled in 2,600 BC.<br><br>The story goes that one day Empress Si Ling Chi was sitting under a Mulberry tree in her palace garden drinking some tea. A cocoon from a silkworm fell into her cup of hot tea. She watched as the silk fibers of the cocoon began to unravel in the hot liquid. She became recognized as the goddess of silk worms.<br><br>The production of silk slowly developed into manufacturing process in China by the 14th century. Silk production became a cornerstone of the Chinese economy where the silk was used for musical instruments, fishing lines and bowstrings. Silk was also used to pay the civil servants in China as a reward from the rulers. The Chinese also used ilk in foreign trade exchanging it for spices and jewels brought from India.<br><br>The Chinese kept the secret of silk production to themselves for more than two thousand years. It was so guarded that a penalty of death was placed on anyone found guilty of smuggling silkworm eggs, cocoons, or mulberry seeds out of the country. But buy the year of 200 BC the secret of silk had spread to Korea and then slowly throughout the rest of Asia and India.<br><br>It wasn't until the 13th century that silk production reached Italy when Persia sent 2000 skilled silk weavers. Those led to the production of silk throughout Europe. Even though silk production has spread worldwide, China is still the largest producer of the world's silk today.<br><br>Manufacturing process:<br><br>The manufacturing process of silk begins with the silkworm its natural ability to produce silk fiber and spin their cocoon with it. There are basically two types of silkworms. One is the silkworm that feeds on oak leaves and produce Tusha silk. The other, mulberry silk moth, produces the highest quality silk called Bombyx mori. This silkworm feeds on the leaves of the mulberry tree. The silkworms spin a cocoon that contains an average of 300-400 meters of silk fiber. It takes up to 5500 silkworms to produce 2lbs of raw silk fibers.<br><br>The production of the silkworm's cocoon to make silk filament is called sericulture. Sericulture is done under controlled conditions and environments on silk farms. The silk worms are raised from eggs and allowed to go through its entire life cycle. The optimal time for harvesting silk is at the cocoon stage.<br><br>The cocoons are harvested and sent to the factory called a filature. Here the cocoons are unwound into silk strands and collected on skeins. The operation consists of four separate operations:<br><br>o Sorting of Cocoons; Cocoons are sorted according to color, size, shape and texture.<br><br>o Softening; the sorted cocoons are immersed in a series of hot and cold solutions to soften the fibers to permit unwinding.<br><br>o Reeling the filament; consist of unwinding the cocoons and twisting the strands together to make a silk thread.<br><br>o Bailing; The silk thread is wrapped onto skeins and packed into small bundles called books. The books are put into bales and shipped to the silk mills where it is woven into material.<br>Characteristics:<br><br>Silk is a protein fiber which gives silk material its characteristics. Silk has a high tensile strength but won't stand up to heavy use or abrasions. Silk will become brittle when exposed to sunlight, high alkalinity, acid, or oily soils will breakdown silk fibers. The appearance of silk depends on the size of the silk yarn used to make the fabric. Large yarn may make the material appear more like cotton or a synthetic. Small well refined yarn will give the silk material the silky feel and look we expect.<br><br>Uses:<br><br>Silk is still today the primary material used to make our finest outerwear. Luxury clothing including fine silk suits and evening gowns are made of the finest silk material.<br><br>Other uses of silk material include:<br><br>o Women's and men's lingerie because of silk's softness and brilliant colours.<br><br>o Silk laces and tulles: Ideal for bridal gowns and veils<br><br>o Hosiery<br><br>o Scarves<br><br>o Ties<br><br>o Decorative articles such as bows and ribbons<br><br>o Furnishing and upholstery<br><br>o Insulation<br><br>Care:<br><br>For the most part silk garments should be dry cleaned to prevent damage of a breakdown of the fibers. Certain silks may be hand washed and line dried or tumble dried with low heat. Silk garments are also known as the wash and wear material because it is resistant to wrinkling.<br>Silk material is prone to moth attacks especially when in storage. Silk garments should be stored appropriately. They may be wrapped in a cotton fabric or other breathable fabric. Silk should not be stored in plastic or other sealed containers that can trap moister. This may lead to mildew and yellowing.<br><br>Chlorine bleach should never be used. This will cause the fabric to yellow and break down.<br>I sincerely hoped you enjoyed this article. Please look forward to my next article where we will discuss a synthetic fiber - polyester.<br><br>Hey wasn't that a remarkable read?<br><br>I know, it was extremely geeky, I know! But I am assured you are as delighted about seatbelt webbing as I was while I chanced upon it. There are many more in the Pandora's Box of incredible ideas, from where this content related to 2-inch webbing roll entered and I am not going to hang back in introducing more of this to you. While I am on the look out for some additional interesting information in this genre, I would enjoy your opinions on this one. Tell me what you think about the story, the photos and the film, and if it all was aligned with what you anticipated to unveil in this discipline.<br><br>Before you go: listen, for those who got a lot out of the information I shared here today, could I recruit you for a few minutes... and be honest as to the extent this is aligned with your interests?<br><br>With or without, please stay tuned, since there's so much more in the queue nearly ready to share in the days to come.<br><br>Wrapping up here, if I may, be sure to note if you can jump on a call with me to record an interview on narrow material or strap polyester. I'd personally love your help in explaining these ideas with a few pictures of two-inch seat belt webbing material.<br><br>Cheers!<br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-30355984064740585952016-06-24T11:32:00.001-07:002016-06-24T11:32:54.173-07:00Fun fact seeker? Great! Today we're looking at polyester and synthetics...Our executive summary -- let me explain -- today's insights come from unusual posts that my assistant and I swa in our morning surf online. Hey, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>We have even more -- let me be honest, my friends -- to share on our branded site. So if you'd love better detailed content, then tap on the one right here: <a href='http://lekkoo.com/v/56fb6f4359f53a091d00000c/Rosemont_Textiles_Automotive_Seat_Belt_Aftermarket_Material_Wholesale/#lat=0.000000&lng=0.000000&zoom=5'>Polyester distributor</a>.<br><br>Okay, let's get into it:<br><br>Yes my friends, I am your commercial fabrics guy, and I have yet more insightful applications of textiles to lay on you. Are you new to this group? Well then, Hello! Roger Howard here, I'm your quirky blogger, ready to share all we uncovered this week.<br><br>1 inch web material is what I'm all about, so it may be a bit of a surprise to you that I only found two topics of interest: polyester manufacturer and webbing manufacturer.<br><br>As always, if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br><br>I have to say that I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br><br>That's enough delay, right? So here is what I am eager to share today. This article provides great background and insight to the science behind 2-inch webbing roll:<br><br>It's just the way it is in the automotive webbing industry that businessmen like us have to network and build out our connections each and every month. I was at our territorial Chamber of Commerce meeting last month and met a new member recently relocated from the west coast. He's recently worked closely with polyester distributor matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br><br>Citation / Source: www.fibersource.com/afma/afma.htm<br>The Exclusive Source of Information on Manufactured Fibers<br><br>The American Fiber Manufacturers Association, Inc. (AFMA) is the trade association for U.S. companies that manufacture synthetic and cellulosic fibers. The industry employs 27 thousand people and produces over 6 billion pounds of fiber in the U.S. Annual domestic sales exceed $8 billion. The membership is limited to U.S. producers that sell manufactured fiber in the open market. <br><br>The Association maintains close ties to other manufactured fiber trade associations worldwide.<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXOXYzTnNLVEZMWXM&export=download" width='480'/><br><br><br>AFMA has been in continuous operation since 1933, when it was established as the Rayon Institute with headquarters in New York. As new fibers entered the market, the Association was renamed the Man-Made Fiber Producers Association. In 1970, operations were moved to Washington as the focus grew from promotion to include advocacy on a broad range of regulatory and international trade issues. The current name for the Association was adopted in 1988.<br><br>The Association's Board of Directors is made up of senior executives from each of AFMA's member companies. Most AFMA programs are managed through committees and task groups of policy and technical experts from the companies. Permanent standing committees include the Trade and Statistics Committee, and the Technical Committee. The Technical Committee has task groups dealing with: Product Stewardship, Regulatory Affairs, Technical Communications, Toxicology, Product Flammability, and International Technical Affairs.<br><br>AFMA's statistics division, the Fiber Economics Bureau (FEB), collects and publishes trade and production data on the manufactured fiber industry. The FiberSource site is maintained by FEB.<br><br>AFMA offices are located at 3033 Wilson Boulevard, Suite 700, Arlington, VA 22201. We can be reached by phone at 703-875-0432; by FAX at 703-875-0907; and by Email. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since seatbelt webbing work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I specifically sought out this one because it came to mind while reading the previous site. This is fundamentation to our industrial webbing vertical market, and, to be honest, I've benefited a lot from networking with people in this AMPEF association, and recommend it highly.<br><br>Citations / Sources found on this domain www.ampef.com<br><br>When the world thinks of plastic films, it thinks of PET.<br><br>The global Association of Manufacturers of Polyester Film (AMPEF) welcomes you to our site. As a non-profit-making organization, our primary purpose is to inform and educate manufacturers, suppliers, end-users, and guests through our site about polyester (PET, PETF and BOPET) film and to encourage its use as a solution for a variety of markets throughout the world.<br><br>Within our pages, you will find general information on polyester packaging, specialty industrial, magnetic, metalized, and plastic and polymer-based applications, as well as details on our association's recycling and returnables programs. You will also find information on AMPEF's members and officers.<br><br>At AMPEF, our mission is to:<br><br> Promote the use of polyester film, while focusing on sustainable growth and environmental "greenness;"<br> Communicate and promote awareness about AMPEF and its activities;<br> Seek solutions to issues of general interest to all members, including health and safety and environmental topics;<br> Collate and disseminate overall industry statistics and other industry information, including industry news and developments; and<br> Improve communication within the industry, and its suppliers, customers, and consumers.<br><br>The object of the association, in the general interest and in all countries, is to:<br><br> Encourage the development, continuous improvement, and use of polyester film;<br> Study and understand the polyester film market;<br> Seek solutions to problems, particularly with respect to governmental standards and technical regulations;<br> Collect historical information and statistical data on polyester film; and<br> Maintain relationships with all similar organizations—public or private.<br><br>Polyester Film Applications<br><br>Packaging: Food packaging general uses, film for flexible pouches, peel-able seals, lids, snacks, barrier films, can laminations, and vacuum insulation panels<br><br>Industrial & Specialties: Hot stamping foil, release films, photo resist films, metallic yarns, adhesive tapes, plastic cards (including "smart" cards), labels, lamination films, brightness enhancement films (computer screens), solar/safety window films, medical test strips, and miscellaneous uses<br><br>Electrical: Motor wire and cable, transformer insulation films, capacitors, thermal printing tapes, membrane touch switches (computer and calculator keyboards), and flexible printed circuit films<br><br>Imaging: Microfilm, printing and pre-press films,color proofing, printing plates, drawing office drafting film, overhead transparencies, X-ray films, instant photos, business graphics, and wide format displays<br><br>Magnetics: Videotape, audio cassette tape, floppy disks, and advanced high-density computer storage media<br><br>Just one more, since this is a big one, and no commercial association overview would be complete with out it. This group is essential to our industrial webbing industry, and I know a lot of sales professionals who share leads through this association, so I highly recommend it.<br><br>Citation / Source www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>The association is structured to meet the diverse needs of the entire plastics industry. As SPI prepares for the future, member engagement in formulating strategy, developing priorities and supplying expertise is critical to our success. From the Executive Board to our three sector Councils (Equipment, Material Suppliers and Processors) and the variety of product/policy committees and self-funded groups, there is a strong foundation already in place to build SPI's new business blueprint. <br><br>To see up to date news, visit the site to read articles like these:<br><br>Plastics Industry Applauds MTB Passage<br>May 20, 2016<br>The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative<br>May 19, 2016<br>The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>SPI Welcomes First General Counsel, Kiran Mand<br>May 19, 2016<br>SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses”<br>May 16, 2016<br>Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>Interesting info, I'm sure you agree, yes? Yes, of course! Two-inch seat belt webbing material is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Let me be honest, my friends, we have even more to share on our main site. When you're ready for better details, take a peek here: <a href='http://lekkoo.com/v/56fb6f4359f53a091d00000c/Rosemont_Textiles_Automotive_Seat_Belt_Aftermarket_Material_Wholesale/#lat=0.000000&lng=0.000000&zoom=5'>Polyester distributor</a>.<br><br>To be clear, before we finish this post -- let me explain -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>Our love for online research and uncovering secrets and hidden bits posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>Please be sure to tell us what you love too!<br><br>Since my assistant and I have more articles in the queue nearly ready to share in the days to come, so stay tuned!<br><br>If we have not yet said it, "Many thanks" for following our blog and sending us your comments and insights on this info.<br><br>Once again, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like narrow seat belt webbing.<br><br>*Hey* Listen, if you loved the information I shared here today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>To be bold, be sure to note if you are open to do a guest post about cargo webbing or supplier webbing. We'd appreciate it if you could better help explain these concepts with a few pictures of 2-inch webbing roll.<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-91447961652418040692016-06-19T09:52:00.001-07:002016-06-19T09:52:40.751-07:00Who could say no to a quick tour of polyester's unusual start?Hi! To all our followers! As always, I'm your commercial fabrics guy, eager to drop a few lines about truly interesting textile process and procedure concepts.<br><br>Correct my friend, this is your commercial fabrics guy, and I have yet another textiles historic insight to send your way. Are you new?? Great!! Hello! Roger Howard here, I'm your intrepid author, eager to get into all we've found today.<br><br>2-inch webbing roll is what I'm all about, so it may be a bit of a surprise to you that I only uncovered a few cool things of interest: polyester distributor and web distributor.<br><br>Just a quick note -- let me explain -- today's insights come from experts' posts that my assistant and I uncovered in today's careful examination of the "Interwebs".<br><br>Truth be told, the information we found today will be of great interest to those who love posts with lots of details in the world of commercial science.<br><br>While I'm thinking of it, would you rather see videos? No problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br><br>Let's be honest, I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br><br>Let me be honest, my friends, we have even more to share on our main site. When you're ready for better details, take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>cool example</a>.<br><br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXMGcxdGlqWWl5V0U&export=download" width='480'/><br><br>Without further delay, here is what I am eager to share today. This article provides great background and insight to the science behind two-inch seat belt webbing material:<br><br>Durability and strength of the material make it a sought after option for many businesses across the globe. Simple things, like the way the woven material can be preshrunk during the manufacturing process makes it a valuable asset to business that require a fabric with consistently non-shrinking properties.<br>Allergy sufferers love polyester fabric for its non-allergic properties. In fact, many people prefer the material for making quilts, pillows, bed sheets (among other uses) for this target audience that is willing to pay more to get the relief they need in hypoallergenic materials.<br><br><br>->> Original Content Body (we may want to spin it)<br><br>Source: http://textilesblogs.blogspot.com/[ADD THE REAL PAGE]<br><br>Recent Research Confirms All Of This: What Is Involved In Product Creation Is Vital To Effectively Polymerizing Polyester.<br><br>Initial Fabrication<br><br>A catalyst is mixed with ethylene glycol and dimethyl terephthalate at a temperature of 150-210 degrees centigrade. The resulting substance is then combined with terephthalic acid. It is allowed to boil at a temperature of 280 degrees centigrade where it forms polyester which is in liquid form. The liquid is allowed to pass through a machine that makes the filaments, tow, fiberfill or staple.<br><br>Drying<br><br>The liquid polyester ribbons are allowed to cool until hard enough. They are then cut into tiny pieces to ensure that no air was trapped in the filament during the manufacturing process.<br><br>Spinning<br><br>Melting of the chips is done at 260-270 degree centigrade, and the resulting solution passes through a spinneret which is metallic and has tiny holes. The holes are of various sizes and forms’ depending on what the company is looking to achieve. It is during this process that different chemicals are added for instance those that will make the final product non-flammable.<br><br>After the spinning process is complete, the fiber is allowed to dry. Specialized machines do the draw of fiber. The fibers are soft, and it is at this stage that texturing, twisting and other processes take place. The fiber is then packaged into a form that it will be easier to weave it into the desired material.<br><br>The manufacturing process of tow is quite different from that of filament manufacture.in that the spinneret machine has smaller holes. The tow fiber that is produced is stored in containers which are specifically for cooling. With technology advancements and the fact that polyester blends easily with natural materials like cotton, wool among others makes it the best choice for many fashion designers.<br><br>You are right that I originally posted this detailed history on our Blogspot account, so feel free to visit our site and read the original info.<br><br>Polyester Historical Notes<br><br>A strong woven fabric was needed by the industrial corporations at the turn of the century. The demand was loud and clear for a product based on a versatile component that could be reliably used in manufacturing and cargo transportation.<br><br>Today we know that most modern webbing is made of synthetic fibers such as polyester, but try to remember that is was not always that way. Cotton webbing and wool webbing used to be quite common. However, growing industries cried out for webbing that was both light and strong, with high breaking strengths suitable to all their needs.<br><br>Science and technology opened a door to a new molecule that clearly met all the needs of the market.<br><br>Polyester industry dates back in the 1920s when W.H. Carothers was contracted by the U.S. based company E.I. du Pont de Nemours and Co. to research large molecules and synthetic fibers. The research led to the discovery of nylon fabric. In the 1930s to early 1940s, Calico Printers Association and Co., a British owned company, further studied the work of W.H. Carothers and discovered ethylene, which paved the way to creation of polyester fibers.<br><br>E.I. du Pont de Nemours and Co. bought the rights to produce the fiber in the U.S.A. and renamed it Dacron. The company carried out extensive research and came up with different and diverse polyester fibers. The polyester industry has evolved over the years and has many varied uses. There are two types of polyester, namely PET (polyethylene terephthalate), PCDT (poly-1,4-cyclohexylene-dimethylene terephthalate).<br><br>My Polyester Fabrics Are Just The Beginning...<br><br>->> Mylar<br><br>Many events rarely end without balloons, what many people do not know is that the balloons are made of polyester and aluminum foil.<br><br>The polyester industry has given rise to many companies all over the world that are of the substance.<br><br>->> Pet Bottles<br><br>Before the advent of polyester, bottles were made of glass, but the discovery of polyester gave rise to plastic bottles which are a cheaper version in comparison with the glass ones hence the popular use.<br><br>Key Components In This Material<br><br>Ethylene is a compound derived from petroleum and it is the key component used in the manufacture of polyester.<br><br>The process of making polyester is called polymerization; ethylene the ingredient derived from petroleum is used as the polymer.<br><br>This is How We Use Polyester Material<br><br>With such a versatile component and foundation, this polyester industry has rapidly evolved, and lead to various and diverse uses for polyester. The applications include the following (of which there are surely dozens more we could add if space permitted):<br> <br>Garment manufacturers all over the world make use of polyester to make clothes, furnishings, sheets, seat belts, carpets among many other purposes. The blending of polyester with wool and cotton to make unique types of clothing material makes it the preferred choice to many in the garment industry.<br><br>Outlined below are some of the qualities that make polyester an ideal choice for cloth making.<br><br>A - Tenacious and Durable<br><br>Polyester industry manufactures materials that are ideal for rock climbing, sleeping bags, and other outdoor uses. The reason why polyester is perfect for the outdoors is because it is not only durable but it can withstand damp and wet conditions. There are those polyester manufacturing companies that coat the material with water-resistant finishes. As such, for those who love surfing during winter, they use polyester made gear.<br><br>B - Insulation Properties<br><br>The polyester industry has come up with innovative ways to insulate the polyester fiber during the manufacturing process. They carry out the process by ensuring that they create hollow fibers that keep air trapped inside so that when one wears polyester made clothing, they body temperature warms the polyester clothes and maintains the heat without losing it. Another way to insulate the polyester is through the use of crimped polyester during the filling process.<br><br>C - Does not Wrinkle<br><br>The polyester industry has grown by leaps and bounds because more people are looking for clothes that do not crease. Polyester is an ideal choice for many since it does not crease and when blended with other materials like wool and cotton, it forms some unique pieces of clothing. The material does not stain therefore many people prefer it for pants, skirts, shirts among many other uses.<br><br>Commercial Thoughts of How It Is Manufactured<br><br>There are four manufacturing processes involved in the manufacture of polyester namely; filament, staple, fiberfill and tow.<br><br><br>** Fiberfill<br><br>Pillows, quilts, and other fillings are manufactured using this process.<br><br>** Tow<br><br>Tow involves combining different filaments closely together.<br> <br>** Staple<br><br>Staple manufacturing involves cutting of the strands into specific sizes. The process allows for blending with other materials like wool and cotton.<br> <br>** Filament<br><br>During the production of filaments, the strand is made into one long continuous strand.<br><br>Where Will It End?<br>The truth is that polyester continues to prove itself to be a light and strong synthetic fiber that continues to open new doors. Especially with the introduction of microfiber in the early 1990s (a polyester fabric that bears the striking resemblance to silk), the polyester industry has no signs of slowing down.<br><br>Well written! Am I right? I love this overview, although I may be biased, am I right?<br><br>Let's be clear, as I've said before, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like two-inch seat belt webbing material.<br><br>Many thanks my dear reader for reading our posts and sharing your ideas and insights on these articles.<br><br>For our video-loving-readers, share your thoughts too! If you find that videos add depth and insight to commercial fabric manufacturing processes, then tell us all about it!<br><br>Since my preference continues to be for the written word, I believe there will always be debate among us as to the best balance of content in these posts.<br><br>Watch this space my friends... because my assistant and I have more articles in the queue nearly ready to share in the days to come. Cheers!<br><br>*Also* Listen, if you loved the content today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>Our love for online research and uncovering secrets and hidden bits posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>Be sure to tell us what you love too!<br><br>One last request, be sure to note if you are open to do a guest post about polyester distributor or webbing manufacturer. We'd appreciate it if you could better help explain these concepts with a few pictures of two-inch seat belt webbing material.<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-39851124366400541572016-06-13T16:34:00.001-07:002016-06-13T16:34:46.067-07:00Take 1 minute to see effective polyester applications...Before we get started -- let me explain -- today's post come from experts' posts that my assistant and I swa in our daily investigations online. Hey, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>We have even more -- believe it or not -- to share on our main site. So if you'd love better detailed content, then tap on the one right here: <a href='http://lekkoo.com/v/56fb6f4359f53a091d00000c/Rosemont_Textiles_Automotive_Seat_Belt_Aftermarket_Material_Wholesale/#lat=0.000000&lng=0.000000&zoom=5'>1.5 inch seat belt webbing</a>.<br><br>Okay, let's get into it:<br><br>Hard to believe, but, yes, I am your commercial fabrics guy, and I have yet more insightful applications of textiles to lay on you. Are you new to this group? Well then, Hello! Roger Howard here, I'm your perpetual blogger, ready to share all we uncovered this week.<br><br>1.5 inch seat belt webbing is what we've worked on all these years, so it may seem odd that I only found two topics of interest this afternoon: polyester distributor and web strapping.<br><br>As always, if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br><br>I have to say that I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br><br>Here's the real info, and here is what I am eager to share today. This article provides great background and insight to the science behind narrow seat belt webbing:<br><br>It's really exciting that in the automotive webbing market that entreprenuers like us need to network and build out our associations each and every workweek. I was at our local Chamber of Commerce meeting last month and met a new member recently relocated from the west coast. He's recently worked directly with poly web material matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br><br>I must disclose -- to be truthful -- that I never knew about the American Fiber Manufacturers Association (humiliating, yes, I know). So it seemed like a perfect opportunity to share an overview with you all (on the outside chance that a few of you may be curious about the AFMA as was I).<br><br>Citation / Source: www.fibersource.com/afma/afma.htm<br>The Exclusive Source of Information on Manufactured Fibers<br><br>The American Fiber Manufacturers Association, Inc. (AFMA) is the trade association for U.S. companies that manufacture synthetic and cellulosic fibers. The industry employs 27 thousand people and produces over 6 billion pounds of fiber in the U.S. Annual domestic sales exceed $8 billion. The membership is limited to U.S. producers that sell manufactured fiber in the open market. <br><br>The Association maintains close ties to other manufactured fiber trade associations worldwide.<br><br>AFMA has been in continuous operation since 1933, when it was established as the Rayon Institute with headquarters in New York. As new fibers entered the market, the Association was renamed the Man-Made Fiber Producers Association. In 1970, operations were moved to Washington as the focus grew from promotion to include advocacy on a broad range of regulatory and international trade issues. The current name for the Association was adopted in 1988.<br><br>The Association's Board of Directors is made up of senior executives from each of AFMA's member companies. Most AFMA programs are managed through committees and task groups of policy and technical experts from the companies. Permanent standing committees include the Trade and Statistics Committee, and the Technical Committee. The Technical Committee has task groups dealing with: Product Stewardship, Regulatory Affairs, Technical Communications, Toxicology, Product Flammability, and International Technical Affairs.<br><br>AFMA's statistics division, the Fiber Economics Bureau (FEB), collects and publishes trade and production data on the manufactured fiber industry. The FiberSource site is maintained by FEB.<br><br>AFMA offices are located at 3033 Wilson Boulevard, Suite 700, Arlington, VA 22201. We can be reached by phone at 703-875-0432; by FAX at 703-875-0907; and by Email. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since seatbelt webbing work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I specifically sought out this one because it came to mind while reading the previous site. This is fundamentation to our industrial webbing vertical market, and, to be honest, I've benefited a lot from networking with people in this AMPEF association, and recommend it highly.<br><br>Citations / Sources found on this domain www.ampef.com<br><br>When the world thinks of plastic films, it thinks of PET.<br><br>The global Association of Manufacturers of Polyester Film (AMPEF) welcomes you to our site. As a non-profit-making organization, our primary purpose is to inform and educate manufacturers, suppliers, end-users, and guests through our site about polyester (PET, PETF and BOPET) film and to encourage its use as a solution for a variety of markets throughout the world.<br><br>Within our pages, you will find general information on polyester packaging, specialty industrial, magnetic, metalized, and plastic and polymer-based applications, as well as details on our association's recycling and returnables programs. You will also find information on AMPEF's members and officers.<br><br>At AMPEF, our mission is to:<br><br> Promote the use of polyester film, while focusing on sustainable growth and environmental "greenness;"<br> Communicate and promote awareness about AMPEF and its activities;<br> Seek solutions to issues of general interest to all members, including health and safety and environmental topics;<br> Collate and disseminate overall industry statistics and other industry information, including industry news and developments; and<br> Improve communication within the industry, and its suppliers, customers, and consumers.<br><br>The object of the association, in the general interest and in all countries, is to:<br><br> Encourage the development, continuous improvement, and use of polyester film;<br> Study and understand the polyester film market;<br> Seek solutions to problems, particularly with respect to governmental standards and technical regulations;<br> Collect historical information and statistical data on polyester film; and<br> Maintain relationships with all similar organizations—public or private.<br><br>Polyester Film Applications<br><br>Packaging: Food packaging general uses, film for flexible pouches, peel-able seals, lids, snacks, barrier films, can laminations, and vacuum insulation panels<br><br>Industrial & Specialties: Hot stamping foil, release films, photo resist films, metallic yarns, adhesive tapes, plastic cards (including "smart" cards), labels, lamination films, brightness enhancement films (computer screens), solar/safety window films, medical test strips, and miscellaneous uses<br><br>Electrical: Motor wire and cable, transformer insulation films, capacitors, thermal printing tapes, membrane touch switches (computer and calculator keyboards), and flexible printed circuit films<br><br>Imaging: Microfilm, printing and pre-press films,color proofing, printing plates, drawing office drafting film, overhead transparencies, X-ray films, instant photos, business graphics, and wide format displays<br><br>Magnetics: Videotape, audio cassette tape, floppy disks, and advanced high-density computer storage media<br><br>Just one more, since this is a big one, and no commercial association overview would be complete with out it. This group is essential to our industrial webbing industry, and I know a lot of sales professionals who share leads through this association, so I highly recommend it.<br><br>Citation / Source www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>The association is structured to meet the diverse needs of the entire plastics industry. As SPI prepares for the future, member engagement in formulating strategy, developing priorities and supplying expertise is critical to our success. From the Executive Board to our three sector Councils (Equipment, Material Suppliers and Processors) and the variety of product/policy committees and self-funded groups, there is a strong foundation already in place to build SPI's new business blueprint. <br><br>To see up to date news, visit the site to read articles like these:<br><br>Plastics Industry Applauds MTB Passage<br>May 20, 2016<br>The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative<br>May 19, 2016<br>The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>SPI Welcomes First General Counsel, Kiran Mand<br>May 19, 2016<br>SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses”<br>May 16, 2016<br>Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>Interesting info, I'm sure you agree, yes? Yes, of course! Two-inch seat belt webbing material is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Let me be honest, my friends, we have even more to share on our main site. When you're ready for better details, take a peek here: <a href='http://lekkoo.com/v/56fb6f4359f53a091d00000c/Rosemont_Textiles_Automotive_Seat_Belt_Aftermarket_Material_Wholesale/#lat=0.000000&lng=0.000000&zoom=5'>1.5 inch seat belt webbing</a>.<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXWm5vYVZRbDV0WUU&export=download" width='480'/><br><br><br>To be clear, before we finish this post -- let me explain -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>Our love for online research and uncovering secrets and hidden bits posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>Please be sure to tell us what you love too!<br><br>Since my assistant and I have more articles in the queue nearly ready to share in the days to come, so stay tuned!<br><br>If we have not yet said it, "Many thanks" for following our blog and sending us your comments and insights on this info.<br><br>Once again, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like narrow seat belt webbing.<br><br>*Hey* Listen, if you loved the information I shared here today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>To be bold, be sure to note if you are open to do a guest post about cargo webbing or supplier webbing. We'd appreciate it if you could better help explain these concepts with a few pictures of 2-inch webbing roll.<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-73366006885345299582016-06-11T10:15:00.001-07:002016-06-11T10:15:23.360-07:00Are you curious about the weird beginnings of polyester production?Hi! To all our followers! As always, I'm your commercial fabrics guy, eager to drop a few lines about truly interesting textile process and procedure concepts.<br><br>Correct my friend, I am your commercial fabrics guy, and I have yet another textiles historic insight to send your way. <br>Are you new?? Great!! <br>Hello! Roger Howard here, I'm your intrepid author, eager to get into all we've found today.<br><br><a href='https://www.igotbiz.com/rosemontbelt'>1.5 inch seat belt webbing</a> is what I'm all about, so it may be a bit of a surprise to you that I only found two topics of interest today: poly web material and seatbelt webbing.<br><br>Just a quick note -- let me explain -- today's insights come from experts' posts that my assistant and I uncovered in today's careful examination of the "Interwebs".<br><br>Truth be told, the information we found today will be of great interest to those who love posts with lots of details in the world of commercial science.<br><br>While I'm thinking of it, would you rather see videos? No problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br><br>Let's be honest, I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br><br>Let me be honest, my friends, we have even more to share on our main site. When you're ready for better details, take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>1.5 inch seat belt webbing</a>.<br><br>Without further delay, here is what I am eager to share today. This article provides great background and insight to the science behind two-inch seat belt webbing material:<br><br>Durability and strength of the material make it a sought after option for many businesses across the globe. Simple things, like the way the woven material can be preshrunk during the manufacturing process makes it a valuable asset to business that require a fabric with consistently non-shrinking properties.<br>Allergy sufferers love polyester fabric for its non-allergic properties. In fact, many people prefer the material for making quilts, pillows, bed sheets (among other uses) for this target audience that is willing to pay more to get the relief they need in hypoallergenic materials.<br><br>Citation: http://textilesblogs.blogspot.com/2016/05/whats-most-effective-way-to-make.html<br><br>Recent Research Confirms All Of This: There Are Critical Process Steps In Molecular Polyester Fabrication.<br>Initial Fabrication<br><br>A catalyst is mixed with ethylene glycol and dimethyl terephthalate at a temperature of 150-210 degrees centigrade. The resulting substance is then combined with terephthalic acid. It is allowed to boil at a temperature of 280 degrees centigrade where it forms polyester which is in liquid form. The liquid is allowed to pass through a machine that makes the filaments, tow, fiberfill or staple.<br><br>Drying<br><br>The liquid polyester ribbons are allowed to cool until hard enough. They are then cut into tiny pieces to ensure that no air was trapped in the filament during the manufacturing process.<br><br>Spinning<br><br>Melting of the chips is done at 260-270 degree centigrade, and the resulting solution passes through a spinneret which is metallic and has tiny holes. The holes are of various sizes and forms’ depending on what the company is looking to achieve. It is during this process that different chemicals are added for instance those that will make the final product non-flammable.<br><br>After the spinning process is complete, the fiber is allowed to dry. Specialized machines do the draw of fiber. The fibers are soft, and it is at this stage that texturing, twisting and other processes take place. The fiber is then packaged into a form that it will be easier to weave it into the desired material.<br><br>The manufacturing process of tow is quite different from that of filament manufacture.in that the spinneret machine has smaller holes. The tow fiber that is produced is stored in containers which are specifically for cooling. With technology advancements and the fact that polyester blends easily with natural materials like cotton, wool among others makes it the best choice for many fashion designers.<br><br>You are right that I originally posted this detailed history on our Blogspot account, so feel free to visit our site and read the original info.<br><br>Polyester Historical Notes<br><br>A strong woven fabric was needed by the industrial corporations at the turn of the century. The demand was loud and clear for a product based on a versatile component that could be reliably used in manufacturing and cargo transportation.<br><br>Today we know that most modern webbing is made of synthetic fibers such as polyester, but try to remember that is was not always that way. Cotton webbing and wool webbing used to be quite common. However, growing industries cried out for webbing that was both light and strong, with high breaking strengths suitable to all their needs.<br><br>Science and technology opened a door to a new molecule that clearly met all the needs of the market.<br><br>Polyester industry dates back in the 1920s when W.H. Carothers was contracted by the U.S. based company E.I. du Pont de Nemours and Co. to research large molecules and synthetic fibers. The research led to the discovery of nylon fabric. In the 1930s to early 1940s, Calico Printers Association and Co., a British owned company, further studied the work of W.H. Carothers and discovered ethylene, which paved the way to creation of polyester fibers.<br><br>E.I. du Pont de Nemours and Co. bought the rights to produce the fiber in the U.S.A. and renamed it Dacron. The company carried out extensive research and came up with different and diverse polyester fibers. The polyester industry has evolved over the years and has many varied uses. There are two types of polyester, namely PET (polyethylene terephthalate), PCDT (poly-1,4-cyclohexylene-dimethylene terephthalate).<br><br>My Polyester Fabrics Are Just The Beginning...<br><br>->> Mylar<br><br>Many events rarely end without balloons, what many people do not know is that the balloons are made of polyester and aluminum foil.<br><br>The polyester industry has given rise to many companies all over the world that are of the substance.<br><br>->> Pet Bottles<br><br>Before the advent of polyester, bottles were made of glass, but the discovery of polyester gave rise to plastic bottles which are a cheaper version in comparison with the glass ones hence the popular use.<br><br>Key Components In This Material<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXWm5vYVZRbDV0WUU&export=download" width='480'/><br><br><br>Ethylene is a compound derived from petroleum and it is the key component used in the manufacture of polyester.<br><br>The process of making polyester is called polymerization; ethylene the ingredient derived from petroleum is used as the polymer.<br><br>This is How We Use Polyester Material<br><br>With such a versatile component and foundation, this polyester industry has rapidly evolved, and lead to various and diverse uses for polyester. The applications include the following (of which there are surely dozens more we could add if space permitted):<br> <br>Garment manufacturers all over the world make use of polyester to make clothes, furnishings, sheets, seat belts, carpets among many other purposes. The blending of polyester with wool and cotton to make unique types of clothing material makes it the preferred choice to many in the garment industry.<br><br>Outlined below are some of the qualities that make polyester an ideal choice for cloth making.<br><br>A - Tenacious and Durable<br><br>Polyester industry manufactures materials that are ideal for rock climbing, sleeping bags, and other outdoor uses. The reason why polyester is perfect for the outdoors is because it is not only durable but it can withstand damp and wet conditions. There are those polyester manufacturing companies that coat the material with water-resistant finishes. As such, for those who love surfing during winter, they use polyester made gear.<br><br>B - Insulation Properties<br><br>The polyester industry has come up with innovative ways to insulate the polyester fiber during the manufacturing process. They carry out the process by ensuring that they create hollow fibers that keep air trapped inside so that when one wears polyester made clothing, they body temperature warms the polyester clothes and maintains the heat without losing it. Another way to insulate the polyester is through the use of crimped polyester during the filling process.<br><br>C - Does not Wrinkle<br><br>The polyester industry has grown by leaps and bounds because more people are looking for clothes that do not crease. Polyester is an ideal choice for many since it does not crease and when blended with other materials like wool and cotton, it forms some unique pieces of clothing. The material does not stain therefore many people prefer it for pants, skirts, shirts among many other uses.<br><br>Commercial Thoughts of How It Is Manufactured<br><br>There are four manufacturing processes involved in the manufacture of polyester namely; filament, staple, fiberfill and tow.<br><br><br>** Fiberfill<br><br>Pillows, quilts, and other fillings are manufactured using this process.<br><br>** Tow<br><br>Tow involves combining different filaments closely together.<br> <br>** Staple<br><br>Staple manufacturing involves cutting of the strands into specific sizes. The process allows for blending with other materials like wool and cotton.<br> <br>** Filament<br><br>During the production of filaments, the strand is made into one long continuous strand.<br><br>Where Will It End?<br>The truth is that polyester continues to prove itself to be a light and strong synthetic fiber that continues to open new doors. Especially with the introduction of microfiber in the early 1990s (a polyester fabric that bears the striking resemblance to silk), the polyester industry has no signs of slowing down.<br><br>Well written! Am I right? I love this overview, although I may be biased, am I right?<br><br>Let's be clear, as I've said before, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like two-inch seat belt webbing material.<br><br>Many thanks my dear reader for reading our posts and sharing your ideas and insights on these articles.<br><br>For our video-loving-readers, share your thoughts too! If you find that videos add depth and insight to commercial fabric manufacturing processes, then tell us all about it!<br><br>Since my preference continues to be for the written word, I believe there will always be debate among us as to the best balance of content in these posts.<br><br>Watch this space my friends... because my assistant and I have more articles in the queue nearly ready to share in the days to come. Cheers!<br><br>*Also* Listen, if you loved the content today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>Our love for online research and uncovering secrets and hidden bits posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>Be sure to tell us what you love too!<br><br>One last request, be sure to note if you are open to do a guest post about polyester distributor or webbing manufacturer. We'd appreciate it if you could better help explain these concepts with a few pictures of two-inch seat belt webbing material.<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-89177150933645396942016-06-08T11:13:00.001-07:002016-06-08T11:13:39.922-07:00Keen on synthetic industry details? Excellent! Let's look into the polyester associations.two-inch seat belt webbing material is what I write about, because it is what I'm all about, so I am sure it will be a bit of a surprise to you that I only found these few topics of interest related to our inventory of polyester manufacturer and webbing manufacturer.<br><br>Let me update you on this process, as a preface note first. Today's insights come from unusual references that our team found in our morning surf online. Hey, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>Amazingly enough, there is even more -- let me be honest, my friends -- to share on our primary site. So if you'd love better detailed content, then tap on the one right here: <a href='http://fancy-pants-fashions.com/keen-on-synthetic-industry-details-excellent-lets-look-into-the-polyester-associations/'>click and see</a>.<br><br>Now onto today's articles:<br><br>Yes, Roger Howard sharing great insights with you (indeed, I am the long-winded commercial fabrics guy), and prepared with interesting textiles bits for you-all!<br><br>Please let me know if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to add all that very soon.<br><br>I have to say that I prefer the written word? That's enough delay, right? So here is what I am eager to share today. This article provides great background and insight to the science behind 1.5 inch seat belt webbing:<br><br>Our team knows it's really exciting that in the polyester distributor industry that entrepreneurs like us ought to network and build out our connections each and every week. I was at our regional Chamber of Commerce meeting last month and met an entrant recently relocated from the west coast. He's recently worked directly with material polyester matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br>.<br>Yes, for those who are loyal followers of my post, this is the part where I come out and confess that I had not really knew anything substantial about the Plastics Industry Trade Association (PITA). Again, yes, this is humbling, I know... but at least I'm getting on top of it now. But now, it seemed like a perfect opportunity to share an overview with you all ...just in case there were a few of you may be curious about the PITA.<br><br>Citation / Source: https://www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services. Find SPI online at www.plasticsindustry.org and www.inthehopper.org.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>A bit of a teaser, but, these are the news items I thought were worth mentioning <br>: )<br>Have a look at this page if you'd like to read more:<br>Citation / Source: https://www.plasticsindustry.org/AboutSPI/NewList.cfm?navItemNumber=1112<br><br>-- House Committee Moves Resolution to Block Persuader Rule — May 26, 2016<br> The House Committee on Education and the Workforce approved a resolution, H. J. Res. 87, to block the implementation of the new Department of Labor’s “persuader” rule under the Congressional Review Act.<br><br>-- Obama Administration Announces Significant Changes to the Overtime Rule — May 26, 2016<br> The Department of Labor (DOL) released its final overtime rule to be used in determining whether or not executive, administrative and professional (“EAP”) employees are exempt from overtime pay.<br><br>-- Highlights from the 2016 North American Flexible Film & Bag Conference — May 25, 2016<br> The 2016 North American Flexible Film & Bag Conference wrapped up this month in Houston after providing dozens of industry professionals with cutting edge insights into the world of plastic wraps and films.<br><br>-- Plastics Industry Applauds MTB Passage — May 20, 2016<br> The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>-- American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative — May 19, 2016<br> The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>-- SPI Welcomes First General Counsel, Kiran Mand — May 19, 2016<br> SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>-- OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses” — May 16, 2016<br> Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>-- OSHA Releases Background Materials for Potential Rulemaking Activity on Process Safety Management (PSM) — May 16, 2016<br> Background and supporting materials provided to the Small Business Advocacy Review (SBAR) Panel for the rulemaking are now available to the public in the rulemaking docket.<br><br>-- California Initiates Online Environmental Complaint System — May 9, 2016<br> The California Environmental Protection Agency (CalEPA) launched an online tool to make it easier for the public to report environmental problems anywhere in the state from their smartphones, tablets and computers.<br><br>-- Plastics Industry is Pleased with House Passage of Miscellaneous Tariff Bill — May 2, 2016<br> On Wednesday, April 27th the House of Representatives passed H.R. 4923, the American Manufacturing Competitiveness Act of 2016. Commonly referred to as the Miscellaneous Tariff Bill (MTB), this legislation outlines the process by which the International Trade Commission (ITC) and Congress shall receive, consider and approve duty suspensions and reductions.<br><br>-- SPI: The Plastics Industry Trade Association Concludes Inaugural Re|focus Summit & Expo — April 28, 2016<br> Yesterday, SPI: The Plastics Industry Trade Association concluded its inaugural Re|focus Recycling Summit & Expo which included prominent speakers from the plastics, recycling, food, beverage and consumer products industries. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br><a href='http://fancy-pants-fashions.com/keen-on-synthetic-industry-details-excellent-lets-look-into-the-polyester-associations/'>click and see</a>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-65399996388534215452016-06-05T13:25:00.001-07:002016-06-05T13:25:49.732-07:00You've likely never seen one like this...Greetings, before we get into all that ... I will give you the overview of what we're getting into in this segment today.<br><br>Our 3 stories detailed out below are from three different authors, who arrive from three very different ideals, and no love is lost between these guys. When I say they do not get along is a major understatement!<br><br>At long last, let's get into it!<br><br>Our dear readers! narrow fabric seat belt web is on my mind, and today I (Roger Howard, of course!) bring you yet one other very-nearly-brilliant post on poly web material my intention being to serve you with some awesome reads and connect you with various terrific resources.<br><br>And you've very likely never come across one like this ... because when it comes to synthetics, these author show up from very different philosophical arenas.<br><br>I'm describing more than merely ill-tempered debates. The guys in this situation are NOT buddies. In fact, you'll soon see how their styles are very different, and are written from wildly different business goals.<br><br>I tuned into this because one of the authors was certainly my trainer back in the day when I first got out of college. So if quite possibly you have enthusiasm in political gossip and insider news, then connect with me on Linkedin and I'll share all the gory details.<br><br>Uh-huh, high stakes, high stress, profit concerns focused on industrial drive things like this:<br><br>Article #1: History Of Fibre Development<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXQkhGY0VfdW5iTVE&export=download" width='480'/><br><br>By Gaurav Doshi<br>Source: http://EzineArticles.com/expert/Gaurav_Doshi/56873<br><br>Different kinds of fibres are available now-a-days. These fibres are mainly divided into two categories natural and man made. They are also categorized by the generations as they were produced in the different years and known as first generation, second generation, third generation or fourth generation fibres.<br><br>The fibres generated first were the natural fibres. In this category cotton, wool, silk and all other animal and plant fibres are included. These fibres were introduced first 4000 years back but their uses were continued till 1940. All these fibres are known as first generation fibres. Very delicate handling is needed for these fibres. Fibres like silks and cottons have not good resistance against moths, wrinkles, wear and washings. So discovery of durable fibres was a greater need and about one century ago first synthesized fibres Rayon/Nylon were produced. These fibres are cheaper in comparison with natural ones. The development of these new fibres opened up fibre application to the various fields like medicine, aeronautics, home furnishing and modern apparels. Fibre engineers produced many new fibres by combining new synthetic fibres with the natural ones.<br><br>In the year 1664 the first attempt was done to make artificial fibre, but success was achieved after 200 years only. A Swiss chemist Audemars first patented artificial fibre in England in 1855. He produced that by dissolving the fibrous inner bark of the mulberry tree and produced cellulose by modifying it chemically. He made threads from the solution by dripping needle in the solution and then drawing them out. His attempt was good but he could not copy the silkworm. He had done experiments with the solution similar to Audemars solution.<br><br>French chemist Hilaire de Chardonnet was the first one to produce artificial silk commercially in the year 1889. Later on he was known as father of rayon industry because he was the first to produce rayon commercially on large scales.<br><br>All the attempts of producing artificial silk failed till the year 1900 but in the year 1910 Samuel Courtaulds and Co. Ltd, formed the American Viscose Company and did production of rayon.<br><br>Arthur D. Little of Boston made a film from acetate which is a cellulosic product in the year 1983 and in the year 1910 Henry Dreyfus and Camille made toilet articles and motion picture film from acetate in Switzerland. In the year 1924 Celanese Company made fibre from the acetate and it was the very first use of acetate in the textile industry. At that time the demand of rayon was high because it was available on the half of the price than raw silk to the textile manufacturers so U.S. rayon production flourished to meet those higher demands.<br><br>About Nylon<br><br>The miracle fibre called Nylon was invented in the September 1931 at the research laboratory of DuPont Company. They saw giant molecules of these polymers when they were working on Nylon '66' and Nylon '6'.<br><br>Nylon is completely synthetic fibre obtained from petrochemicals and is very different from Rayon and Acetate which are made up of cellulosic material of plants. The discovery of Nylon started a new era of manufactured fibres.<br><br>A change in life style<br><br>In the year 1939 commercial production of nylon was started by DuPont. In the very beginning on the experimental basis they used nylon in parachute fabric, in women's hosiery and in sewing thread. Nylon stockings were firstly visible to the public at the San Francisco Exposition in February 1939.<br><br>At the times of war, Asian silk was replaced by nylon in parachutes. The other uses of Nylon are in military supplies, ponchos, tyres, ropes, tents and in the high grade paper to make U.S. currency. At the time of war cotton was the most commonly used fibre and its uses were more then 80% than any other fibres. Another 20% is shared by wool and other manufactured fibres. August 1945 was the time of ending of war, at that time cotton shares 75% of the fibre market and rise of 15% was seen in the market of manufactured fibres.<br><br>And before we go too far into this post, Steve reminded me that we have even more to share on our other web pages. When you're ready for better details, take a peek here: <a href='http://www.expressbusinessdirectory.com/Companies/Rosemont-Textiles-Automotive-Seat-Belt-Aftermarket-Material-Wholesale-C279837'>Our Rosemont Textiles</a>.<br><br>Yes indeed, there is much more where that came from.<br><br>Hey, back on topic -- lets spring ahead to things related to my favorite topic (strap webbing) -- check this out ->><br><br>On a nerd rating range of 1-10,<br>this is clearly an 11!<br><br>Strangely enough, only a few of you will love this as deeply as do I.<br>Suffice to say, this is at the deep end of the scientific pool.<br><br>Article #2: Polyurethanes History<br>By Waheed Hassan <br>Source: http://EzineArticles.com/expert/Waheed_Hassan/103462<br><br>The pioneering work on polyurethane polymers was conducted by Otto Bayer and his coworkers in 1937 at the laboratories of I.G. Farben in Leverkusen, Germany. They recognized that using the polyaddition principle to produce polyurethanes from liquid diisocyanates and liquid polyether or polyester diols seemed to point to special opportunities, especially when compared to already existing plastics that were made by polymerizing olefins, or by polycondensation. The new monomer combination also circumvented existing patents obtained by Wallace Carothers on polyesters.Initially, work focused on the production of fibres and flexible foams. With development constrained by World War II (when PU's were applied on a limited scale as aircraft coating), it was not until 1952 that polyisocyanates became commercially available. Commercial production of flexible polyurethane foam began in 1954, based on toluene diisocyanate (TDI) and polyester polyols. The invention of these foams (initially called imitation swiss cheese by the inventors) was thanks to water accidentally introduced in the reaction mix.<br><br>These materials were also used to produce rigid foams, gum rubber, and elastomers. Linear fibres were produced from hexamethylene diisocyanate (HDI) and 1,4-butanediol (BDO). The first commercially available polyether polyol, poly(tetramethylene ether) glycol), was introduced by DuPont in 1956 by polymerizing tetrahydrofuran. Less expensive polyalkylene glycols were introduced by BASF and Dow Chemical the following year, 1957. These polyether polyols offered technical and commercial advantages such as low cost, ease of handling, and better hydrolytic stability; and quickly supplanted polyester polyols in the manufacture of polyurethane goods. Another early pioneer in PU's was the Mobay corporation. In 1960 more than 45,000 tons of flexible polyurethane foams were produced. As the decade progressed, the availability of chlorofluoroalkane blowing agents, inexpensive polyether polyols, and methylene diphenyl diisocyanate (MDI) heralded the development and use of polyurethane rigid foams as high performance insulation materials.Rigid foams based on polymeric MDI (PMDI) offered better thermal stability and combustion characteristics than those based on TDI. In 1967, urethane modified polyisocyanurate rigid foams were introduced, offering even better thermal stability and flammability resistance to low density insulation products.<br><br>Also during the 1960s, automotive interior safety components such as instrument and door panels were produced by back-filling thermoplastic skins with semi-rigid foam. In 1969, Bayer AG exhibited an all plastic car in Dusseldorf, Germany. Parts of this car were manufactured using a new process called RIM, Reaction Injection Molding. RIM technology uses high-pressure impingement of liquid components followed by the rapid flow of the reaction mixture into a mold cavity. Large parts, such as automotive fascia and body panels, can be molded in this manner. Polyurethane RIM evolved into a number of different products and processes. Using diamine chain extenders and trimerization technology gave poly(urethane urea), poly(urethane isocyanurate), and polyurea RIM. The addition of fillers, such as milled glass, mica, and processed mineral fibres gave arise to RRIM, reinforced RIM, which provided improvements in flexural modulus (stiffness) and thermal stability. This technology allowed production of the first plastic-body automobile in the United Sates, the Pontiac Fiero, in 1983. Further improvements in flexural modulus were obtained by incorporating preplaced glass mats into the RIM mold cavity, also known as SRIM, or structural RIM. Starting in the early 1980s, water-blown microcellular flexible foam was used to mold gaskets for panel and radial seal air filters in the automotive industry. Since then, increasing energy prices and the desire to eliminate PVC plastisol from automotive applications have greatly increased market share. Costlier raw materials are offset by a significant decrease in part weight and in some cases, the elimination of metal end caps and filter housings.<br><br>Highly filled polyurethane elastomers, and more recently unfilled polyurethane foams are now used in high-temperature oil filter applications. Polyurethane foam (including foam rubber) is often made by adding small amounts of volatile materials, so-called blowing agents, to the reaction mixture. These simple volatile chemicals yield important performance characteristics, primarily thermal insulation. In the early 1990s, because of their impact on ozone depletion, the Montreal Protocol led to the greatly reduced use of many chlorine-containing blowing agents, such as trichlorofluoromethane (CFC-11). Other haloalkanes, such as the hydrochlorofluorocarbon 1,1-dichloro-1-fluoroethane (HCFC-141b), were used as interim replacements until their phase out under the IPPC directive on greenhouse gases in 1994 and by the Volatile Organic Compounds (VOC) directive of the EU in 1997 (See: Haloalkanes). By the late 1990s, the use of blowing agents such as carbon dioxide, pentane, 1,1,1,2-tetrafluoroethane (HFC-134a) and 1,1,1,3,3-pentafluoropropane (HFC-245fa) became more widespread in North America and the EU, although chlorinated blowing agents remained in use in many developing countries.<br><br>Building on existing polyurethane spray coating technology and polyetheramine chemistry, extensive development of two-component polyurea spray elastomers took place in the 1990s. Their fast reactivity and relative insensitivity to moisture make them useful coatings for large surface area projects, such as secondary containment, manhole and tunnel coatings, and tank liners. Excellent adhesion to concrete and steel is obtained with the proper primer and surface treatment. During the same period, new two-component polyurethane and hybrid polyurethane-polyurea elastomer technology was used to enter the marketplace of spray-in-place load bed liners. This technique for coating pickup truck beds and other cargo bays creates a durable, abrasion resistant composite with the metal substrate, and eliminates corrosion and brittleness associated with drop-in thermoplastic bed liners. The use of polyols derived from vegetable oils to make polyurethane products began garnishing attention beginning around 2004, partly due to the rising costs of petrochemical feedstocks and partially due to an enhanced public desire for environmentally friendly green products. One of the most vocal supporters of these polyurethanes made using natural oil polyols is the Ford Motor Company.<br><br>Article #3: Fabrics Used to Make Material in Today's Textile Industry - Silk<br>By Jeffrey Ware<br>Source: http://EzineArticles.com/expert/Jeffrey_Ware/146404<br><br>Choosing the fabric your clothing is made with is important. This choice can make the difference in the look, comfort, durability, or practicality of the purpose of the particular article of clothing. The choice of fabrics is never more important that the clothes you wear every day at work. Your work uniform must be comfortable yet durable. It must be stylish yet practical. The average person will spend more time wearing their uniform than any other article of clothing with maybe the exception of sleep clothing. The fabric your uniform is made from is important and with today's fabrics you have a wider choice than ever.<br><br>Every fabric used to manufacture clothing today has its own characteristics and uses. When choosing clothing as important as your uniform, it is important that you understand the characteristics of the different fabrics. This is the first in a series of articles where we will explore the different fabrics and manufacturing process of common fabrics.<br><br>We will discuss fabrics such as cotton, wool, nylon, polyester and many other natural and synthetic fabric materials. Information will be presented about the history, manufacturing methods, characteristics, and uses of the different fabrics. Information concerning the cares of fabrics will also be presented.<br><br>This is the second in my series of fabric characteristics (the first was about cotton) and again we will go way back to the beginning of another natural fabric, silk. Silk dates back as far as cotton as a material in which clothing and material were made from. Silk was a material that separated the common man from the elite population of early times. Evan today, silk material is commonly found used by the upper class of society.<br><br>History:<br><br>The exact history of silk is somewhat of a mystery. Historians say that silk production, called Sericulture, originated in China 10,000 years ago. However ancient Chinese legends contribute the origination of Sericulture to the Chinese empress Si Ling Chi who ruled in 2,600 BC.<br><br>The story goes that one day Empress Si Ling Chi was sitting under a Mulberry tree in her palace garden drinking some tea. A cocoon from a silkworm fell into her cup of hot tea. She watched as the silk fibers of the cocoon began to unravel in the hot liquid. She became recognized as the goddess of silk worms.<br><br>The production of silk slowly developed into manufacturing process in China by the 14th century. Silk production became a cornerstone of the Chinese economy where the silk was used for musical instruments, fishing lines and bowstrings. Silk was also used to pay the civil servants in China as a reward from the rulers. The Chinese also used ilk in foreign trade exchanging it for spices and jewels brought from India.<br><br>The Chinese kept the secret of silk production to themselves for more than two thousand years. It was so guarded that a penalty of death was placed on anyone found guilty of smuggling silkworm eggs, cocoons, or mulberry seeds out of the country. But buy the year of 200 BC the secret of silk had spread to Korea and then slowly throughout the rest of Asia and India.<br><br>It wasn't until the 13th century that silk production reached Italy when Persia sent 2000 skilled silk weavers. Those led to the production of silk throughout Europe. Even though silk production has spread worldwide, China is still the largest producer of the world's silk today.<br><br>Manufacturing process:<br><br>The manufacturing process of silk begins with the silkworm its natural ability to produce silk fiber and spin their cocoon with it. There are basically two types of silkworms. One is the silkworm that feeds on oak leaves and produce Tusha silk. The other, mulberry silk moth, produces the highest quality silk called Bombyx mori. This silkworm feeds on the leaves of the mulberry tree. The silkworms spin a cocoon that contains an average of 300-400 meters of silk fiber. It takes up to 5500 silkworms to produce 2lbs of raw silk fibers.<br><br>The production of the silkworm's cocoon to make silk filament is called sericulture. Sericulture is done under controlled conditions and environments on silk farms. The silk worms are raised from eggs and allowed to go through its entire life cycle. The optimal time for harvesting silk is at the cocoon stage.<br><br>The cocoons are harvested and sent to the factory called a filature. Here the cocoons are unwound into silk strands and collected on skeins. The operation consists of four separate operations:<br><br>o Sorting of Cocoons; Cocoons are sorted according to color, size, shape and texture.<br><br>o Softening; the sorted cocoons are immersed in a series of hot and cold solutions to soften the fibers to permit unwinding.<br><br>o Reeling the filament; consist of unwinding the cocoons and twisting the strands together to make a silk thread.<br><br>o Bailing; The silk thread is wrapped onto skeins and packed into small bundles called books. The books are put into bales and shipped to the silk mills where it is woven into material.<br>Characteristics:<br><br>Silk is a protein fiber which gives silk material its characteristics. Silk has a high tensile strength but won't stand up to heavy use or abrasions. Silk will become brittle when exposed to sunlight, high alkalinity, acid, or oily soils will breakdown silk fibers. The appearance of silk depends on the size of the silk yarn used to make the fabric. Large yarn may make the material appear more like cotton or a synthetic. Small well refined yarn will give the silk material the silky feel and look we expect.<br><br>Uses:<br><br>Silk is still today the primary material used to make our finest outerwear. Luxury clothing including fine silk suits and evening gowns are made of the finest silk material.<br><br>Other uses of silk material include:<br><br>o Women's and men's lingerie because of silk's softness and brilliant colours.<br>o Silk laces and tulles: Ideal for bridal gowns and veils<br>o Hosiery<br>o Scarves<br>o Ties<br>o Decorative articles such as bows and ribbons<br>o Furnishing and upholstery<br>o Insulation<br><br>Care:<br><br>For the most part silk garments should be dry cleaned to prevent damage of a breakdown of the fibers. Certain silks may be hand washed and line dried or tumble dried with low heat. Silk garments are also known as the wash and wear material because it is resistant to wrinkling.<br>Silk material is prone to moth attacks especially when in storage. Silk garments should be stored appropriately. They may be wrapped in a cotton fabric or other breathable fabric. Silk should not be stored in plastic or other sealed containers that can trap moister. This may lead to mildew and yellowing.<br><br>Chlorine bleach should never be used. This will cause the fabric to yellow and break down.<br>I sincerely hoped you enjoyed this article. Please look forward to my next article where we will discuss a synthetic fiber - polyester.<br><br>Hey wasn't that an exceptional read?<br><br>You're right, it was extremely geeky, I know! Still, I am assured you are as delighted about supplier webbing as I was while I bumped into it. There are many more in the Pandora's Box of incredible subjects, from where this content related to 1.5 inch seat belt webbing arrived and I am not going to lag behind in delivering more of this to you. Although I am on the look out for some more interesting information in this genre, I would love to have your suggestions on this one. Tell me what you think about the story, the pictures and the promotional film, and if it all was aligned with what you wanted to uncover in this discipline.<br><br>*Also* listen, if you loved the content today, will you help me please and be honest as to the extent this is aligned with your interests?<br><br>Either way, please stay tuned, since there's so much more in the queue nearly ready to share for next week!<br><br>One last request, if I may, be sure to note if you can jump on a call with me to record an interview on industrial strap or supplier webbing. I'd personally love your help in explaining these ideas with a few pictures of 1 1/2 inch seat belt webbing.<br><br>Cheers!<br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-55610891513761996202016-06-03T02:47:00.001-07:002016-06-03T02:47:25.628-07:00Are you curious about the "PITA" and how it relates to synthetic or polyester web?2-inch webbing roll is what I write about, because it is what I'm all about, so I am sure it will seem odd that I only uncovered a few unusual bits of interest today related to our inventory of poly web material and webbing polyester.<br><br>Let me update you on this process, just one quick "FYI". Today's excerpts come from unusual posts that my assistant and I found in our morning surf of the web. Hey, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>Amazingly enough, there is even more -- outrageous as it may seem -- to share on our primary site. So if you'd love better detailed content, then take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>cool example</a>.<br><br>Okay, let's get started:<br><br>Yes, Roger Howard writing to you (indeed, I am the prolific commercial fabrics guy), and prepared with interesting textiles content today for you-all!<br><br>As always, if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to add all that very soon.<br><br>I have to say that I prefer the written word? That's enough delay, right? So here is what I am eager to share today. This article provides great background and insight to the science behind 1.5 inch seat belt webbing:<br><br>Our team knows it's really exciting that in the cargo webbing commercial enterprise that business owners like us have to network and build out our associations each and every workweek. I was at our regional Chamber of Commerce meeting last month and met a new member recently relocated from the west coast. He's recently worked closely with poly web material matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br><br>Yes, for those who are loyal followers of my post, this is the part where I come out and confess that I had barely ever come across the Plastics Industry Trade Association (PITA). Again, yes, this is humbling, I know... but at least I'm getting on top of it now. Either way, it seemed like a perfect opportunity to share an overview with you all ...just in case there were a few of you may be curious about the PITA.<br><br>Citation / Source: https://www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services. Find SPI online at www.plasticsindustry.org and www.inthehopper.org.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>A bit of a teaser, but, these are the news items I thought were worth mentioning <br>: )<br>Have a look at this page if you'd like to read more:<br>Citation / Source: https://www.plasticsindustry.org/AboutSPI/NewList.cfm?navItemNumber=1112<br><br>-- House Committee Moves Resolution to Block Persuader Rule — May 26, 2016<br> The House Committee on Education and the Workforce approved a resolution, H. J. Res. 87, to block the implementation of the new Department of Labor’s “persuader” rule under the Congressional Review Act.<br><br>-- Obama Administration Announces Significant Changes to the Overtime Rule — May 26, 2016<br> The Department of Labor (DOL) released its final overtime rule to be used in determining whether or not executive, administrative and professional (“EAP”) employees are exempt from overtime pay.<br><br>-- Highlights from the 2016 North American Flexible Film & Bag Conference — May 25, 2016<br> The 2016 North American Flexible Film & Bag Conference wrapped up this month in Houston after providing dozens of industry professionals with cutting edge insights into the world of plastic wraps and films.<br><br>-- Plastics Industry Applauds MTB Passage — May 20, 2016<br> The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>-- American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative — May 19, 2016<br> The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>-- SPI Welcomes First General Counsel, Kiran Mand — May 19, 2016<br> SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>-- OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses” — May 16, 2016<br> Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>-- OSHA Releases Background Materials for Potential Rulemaking Activity on Process Safety Management (PSM) — May 16, 2016<br> Background and supporting materials provided to the Small Business Advocacy Review (SBAR) Panel for the rulemaking are now available to the public in the rulemaking docket.<br><br>-- California Initiates Online Environmental Complaint System — May 9, 2016<br> The California Environmental Protection Agency (CalEPA) launched an online tool to make it easier for the public to report environmental problems anywhere in the state from their smartphones, tablets and computers.<br><br>-- Plastics Industry is Pleased with House Passage of Miscellaneous Tariff Bill — May 2, 2016<br> On Wednesday, April 27th the House of Representatives passed H.R. 4923, the American Manufacturing Competitiveness Act of 2016. Commonly referred to as the Miscellaneous Tariff Bill (MTB), this legislation outlines the process by which the International Trade Commission (ITC) and Congress shall receive, consider and approve duty suspensions and reductions.<br><br>-- SPI: The Plastics Industry Trade Association Concludes Inaugural Re|focus Summit & Expo — April 28, 2016<br> Yesterday, SPI: The Plastics Industry Trade Association concluded its inaugural Re|focus Recycling Summit & Expo which included prominent speakers from the plastics, recycling, food, beverage and consumer products industries. <br><br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since strap polyester work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I sought this one because of some of my notes related to the previous site. This is fundamental to our digital era, and, I've benefited a lot from getting up to speed on this manufacturing process, so I recommend this site highly.<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXOXYzTnNLVEZMWXM&export=download" width='480'/><br><br><br>Citation / Source: http://www.iasa-web.org/magnetic-tape-decomposition/polyester-urethanes<br><br>Polyester-urethanes are formed by reacting carboxylic acid and an alcohol to produce esters and water. This esterification reaction is reversible by a process of hydrolysis, in which water and esters are consumed, whilst acid and alcohol are produced (Fig.3). Being a reversible reaction, it is an equilibrium equation; in the presence of a certain moisture concentration, i.e. airborne humidity. polyesters will evolve or consume water from the surroundings until an equilibrium is reached.<br><br>The PE-U in tape binders are typically cross-linked co-polymers. The chains are arranged in lattice-shaped structures joined by ester linkages. These aliphatic esters which number roughly 5 or 10 times as many as the polyurethanes are much more prone to hydrolyse than the PET substrate.<br><br>. . .<br><br>Just one more, since this is a little one, and no post would be complete with out a strange article like this. I know a lot of sales professionals who love to share odd stories like this, so I highly recommend you check it out:<br><br>Citation / Source: http://schwartz.eng.auburn.edu/polyester/revival.html<br><br>The polyester leisure suit--a cliche that has outworn the fashion itself. When polyester was first introduced it was a coveted fabric used only in the most expensive garments. By the late 60s and early 70s, however, it became synonymous with cheap to buy and cheaply made--not to mention all of the horrendous colors that polyester suits were being made out of! <br><br>In 1980, the Tennessee Eastman Company began a campaign to revive polyester's image. They called it the "yes" in polYESter campaign and advertised through radio and television media. The Man-Made Fiber Producer's Association's (MMFPA) Polyester Fashion Council followed suit (no pun intended) and launched a similar campaign to help shed polyester's bad image. They focused on polyester's wash and go properties instead of trying to sell it as a cheap fabric.<br><br>(Interested? Be sure to follow our link, noted above, to see more!)<br><br>Interesting info, correct? Yes, of course! 2-inch webbing roll is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Believe it or not, we have even more to share on our primary site. When you're ready for better details, take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>cool example</a>.<br><br>To be clear, before we finish this post -- if I may -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>Our whole team has more articles prepared to share quite soon. Please stay tuned!<br><br>If we have not yet said it, "Many thanks" for following our blog and sending us your comments and insights on this info.<br><br>Let me say -- to remind you :-) -- we always appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like two-inch seat belt webbing material.<br><br>Our team's keen desire to look across the web for secrets posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>Please be sure to tell us what you love too!<br><br>To be bold, be sure to note if you are open to do a guest post about automotive webbing or web strapping. We'd appreciate it if you could better help explain these concepts with a few pictures of two-inch seat belt webbing material.<br><br>PS - Listen, for those who got a lot out of the content today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-26553499427557259412016-05-31T01:52:00.001-07:002016-05-31T01:52:50.188-07:00Take 1 minute to see effective polyester applications...One quick "FYI" -- let me explain -- today's excerpts come from experts' references that our team found in our morning surf online. Hey, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>We have even more -- let me be honest, my friends -- to share on our primary site. So if you'd love better detailed content, then take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>check it out</a>.<br><br>Perfect, we can now begin:<br><br>Yes, Roger Howard writing to you (indeed, I am the long-winded commercial fabrics guy), and prepared with interesting textiles content today for you-all!<br><br>1 1/2 inch seat belt webbing is what we've worked on all these years, so it may seem odd that I only found two topics of interest this afternoon: narrow material and web strapping.<br><br>As always, if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br><br>I have to say that I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br><br>So let's dive in, okay, here is what I am eager to share today. This article provides great background and insight to the science behind 1 1/2 inch seat belt webbing:<br><br>It's just the way it is in the industrial strap commercial enterprise that business owners like us ought to network and build out our connections each and every week. I was at our neighborhood Chamber of Commerce conference last month and met an entrant recently relocated from the west coast. He's recently performed directly with industrial strap matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br><br>I must confess -- to be sincere -- that I never knew about the American Fiber Manufacturers Association (humiliating, yes, I know). So it seemed like a perfect opportunity to share an overview with you all (on the outside chance that a few of you may be curious about the AFMA as was I).<br><br>Citation / Source: www.fibersource.com/afma/afma.htm<br>The Exclusive Source of Information on Manufactured Fibers<br><br>The American Fiber Manufacturers Association, Inc. (AFMA) is the trade association for U.S. companies that manufacture synthetic and cellulosic fibers. The industry employs 27 thousand people and produces over 6 billion pounds of fiber in the U.S. Annual domestic sales exceed $8 billion. The membership is limited to U.S. producers that sell manufactured fiber in the open market. <br><br>The Association maintains close ties to other manufactured fiber trade associations worldwide.<br><br>AFMA has been in continuous operation since 1933, when it was established as the Rayon Institute with headquarters in New York. As new fibers entered the market, the Association was renamed the Man-Made Fiber Producers Association. In 1970, operations were moved to Washington as the focus grew from promotion to include advocacy on a broad range of regulatory and international trade issues. The current name for the Association was adopted in 1988.<br><br>The Association's Board of Directors is made up of senior executives from each of AFMA's member companies. Most AFMA programs are managed through committees and task groups of policy and technical experts from the companies. Permanent standing committees include the Trade and Statistics Committee, and the Technical Committee. The Technical Committee has task groups dealing with: Product Stewardship, Regulatory Affairs, Technical Communications, Toxicology, Product Flammability, and International Technical Affairs.<br><br>AFMA's statistics division, the Fiber Economics Bureau (FEB), collects and publishes trade and production data on the manufactured fiber industry. The FiberSource site is maintained by FEB.<br><br>AFMA offices are located at 3033 Wilson Boulevard, Suite 700, Arlington, VA 22201. We can be reached by phone at 703-875-0432; by FAX at 703-875-0907; and by Email. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since strap webbing work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I specifically sought out this one because it came to mind while reading the previous site. This is fundamentation to our industrial webbing vertical market, and, to be honest, I've benefited a lot from networking with people in this AMPEF association, and recommend it highly.<br><br>Citations / Sources found on this domain www.ampef.com<br><br>When the world thinks of plastic films, it thinks of PET.<br><br>The global Association of Manufacturers of Polyester Film (AMPEF) welcomes you to our site. As a non-profit-making organization, our primary purpose is to inform and educate manufacturers, suppliers, end-users, and guests through our site about polyester (PET, PETF and BOPET) film and to encourage its use as a solution for a variety of markets throughout the world.<br><br>Within our pages, you will find general information on polyester packaging, specialty industrial, magnetic, metalized, and plastic and polymer-based applications, as well as details on our association's recycling and returnables programs. You will also find information on AMPEF's members and officers.<br><br>At AMPEF, our mission is to:<br><br> Promote the use of polyester film, while focusing on sustainable growth and environmental "greenness;"<br> Communicate and promote awareness about AMPEF and its activities;<br> Seek solutions to issues of general interest to all members, including health and safety and environmental topics;<br> Collate and disseminate overall industry statistics and other industry information, including industry news and developments; and<br> Improve communication within the industry, and its suppliers, customers, and consumers.<br><br>The object of the association, in the general interest and in all countries, is to:<br><br> Encourage the development, continuous improvement, and use of polyester film;<br> Study and understand the polyester film market;<br> Seek solutions to problems, particularly with respect to governmental standards and technical regulations;<br> Collect historical information and statistical data on polyester film; and<br> Maintain relationships with all similar organizations—public or private.<br><br>Polyester Film Applications<br><br>Packaging: Food packaging general uses, film for flexible pouches, peel-able seals, lids, snacks, barrier films, can laminations, and vacuum insulation panels<br><br>Industrial & Specialties: Hot stamping foil, release films, photo resist films, metallic yarns, adhesive tapes, plastic cards (including "smart" cards), labels, lamination films, brightness enhancement films (computer screens), solar/safety window films, medical test strips, and miscellaneous uses<br><br>Electrical: Motor wire and cable, transformer insulation films, capacitors, thermal printing tapes, membrane touch switches (computer and calculator keyboards), and flexible printed circuit films<br><br>Imaging: Microfilm, printing and pre-press films,color proofing, printing plates, drawing office drafting film, overhead transparencies, X-ray films, instant photos, business graphics, and wide format displays<br><br>Magnetics: Videotape, audio cassette tape, floppy disks, and advanced high-density computer storage media<br><br>Just one more, since this is a big one, and no commercial association overview would be complete with out it. This group is essential to our industrial webbing industry, and I know a lot of sales professionals who share leads through this association, so I highly recommend it.<br><br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXRmlyTFNibl9LLWs&export=download" width='480'/><br><br>Citation / Source www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>The association is structured to meet the diverse needs of the entire plastics industry. As SPI prepares for the future, member engagement in formulating strategy, developing priorities and supplying expertise is critical to our success. From the Executive Board to our three sector Councils (Equipment, Material Suppliers and Processors) and the variety of product/policy committees and self-funded groups, there is a strong foundation already in place to build SPI's new business blueprint. <br><br>To see up to date news, visit the site to read articles like these:<br><br>Plastics Industry Applauds MTB Passage<br>May 20, 2016<br>The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative<br>May 19, 2016<br>The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>SPI Welcomes First General Counsel, Kiran Mand<br>May 19, 2016<br>SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses”<br>May 16, 2016<br>Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>Fabulous info, am I right? Yes, of course! 1 1/2 inch seat belt webbing is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Believe it or not, we have even more to share on our primary site. When you're ready for better details, click this little link: <a href='https://www.igotbiz.com/rosemontbelt'>check it out</a>.<br><br>One more time, one fast wrap-up note -- let me explain -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>My passion for scouring the web for secrets and hidden bits posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>We're looking forward to all you can share there.<br><br>Since my assistant and I have more articles in the queue nearly ready to share in the days to come, so stay tuned!<br><br>If I've not yet said it, "Cheers" my dear reader for following our blog and sending us your comments and insights on this info.<br><br>Once again, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like 2-inch webbing roll.<br><br>While we're here: Listen, for those who got a lot out of the content today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>If I may,be sure to note if you are open to do a guest post about polyester distributor or strap polyester. We'd appreciate it if you could better help explain these concepts with a few pictures of narrow seat belt webbing.<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-34487179489374348072016-05-29T04:00:00.001-07:002016-05-30T00:56:40.548-07:00When was the last time you pondered the origins of the polyester molecule?Salutations! To all my bestfollowers! As always, I'm your commercial fabrics guy, eager to drop a few lines about truly interesting textile process and procedure concepts.<br />
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Your colleague Roger Howard here writing clever insights for you -- yes, the prolific commercial fabrics guy) -- and ready to share amazin textiles data with you!<br />
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Correct my friend, I am your commercial fabrics guy, and I have yet another textiles historic insight to send your way. Are you new?? Great!! Hello! Roger Howard here, I'm your intrepid author, eager to get into all we've found today.<br />
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1 inch web material is what I know and love, so it may be a bit of a surprise to you that I only uncovered a few cool things of interest: material polyester and web distributor.<br />
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Just a quick note -- let me explain -- today's insights come from experts' posts that my assistant and I uncovered in today's careful examination of the "Interwebs".<br />
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Truth be told, the information we found today will be of great interest to those who love posts with lots of details in the world of commercial science.<br />
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Listen, would you rather see videos? No problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br />
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To be clear, I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br />
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Let me be honest, my friends, we have even more to share on our branded site. When you're ready for better details, click this little link: <a href="https://www.igotbiz.com/rosemontbelt">link right here</a>.<br />
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Without further delay, here is what I am eager to share today. This article provides great background and insight to the science behind two-inch seat belt webbing material:<br />
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Durability and strength of the material make it a sought after option for many businesses across the globe. Simple things, like the way the woven material can be preshrunk during the manufacturing process makes it a valuable asset to business that require a fabric with consistently non-shrinking properties.<br />
Allergy sufferers love polyester fabric for its non-allergic properties. In fact, many people prefer the material for making quilts, pillows, bed sheets (among other uses) for this target audience that is willing to pay more to get the relief they need in hypoallergenic materials.<br />
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->> Original Content Body<br />
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Source: http://textilesblogs.blogspot.com<br />
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Recent Research Confirms All Of This: Exact Scientific Processes Make Important Differences with Polyester Polymerization.<br />
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Initial Fabrication<br />
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A catalyst is mixed with ethylene glycol and dimethyl terephthalate at a temperature of 150-210 degrees centigrade. The resulting substance is then combined with terephthalic acid. It is allowed to boil at a temperature of 280 degrees centigrade where it forms polyester which is in liquid form. The liquid is allowed to pass through a machine that makes the filaments, tow, fiberfill or staple.<br />
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Drying<br />
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The liquid polyester ribbons are allowed to cool until hard enough. They are then cut into tiny pieces to ensure that no air was trapped in the filament during the manufacturing process.<br />
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Spinning<br />
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Melting of the chips is done at 260-270 degree centigrade, and the resulting solution passes through a spinneret which is metallic and has tiny holes. The holes are of various sizes and forms’ depending on what the company is looking to achieve. It is during this process that different chemicals are added for instance those that will make the final product non-flammable.<br />
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After the spinning process is complete, the fiber is allowed to dry. Specialized machines do the draw of fiber. The fibers are soft, and it is at this stage that texturing, twisting and other processes take place. The fiber is then packaged into a form that it will be easier to weave it into the desired material.<br />
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The manufacturing process of tow is quite different from that of filament manufacture.in that the spinneret machine has smaller holes. The tow fiber that is produced is stored in containers which are specifically for cooling. With technology advancements and the fact that polyester blends easily with natural materials like cotton, wool among others makes it the best choice for many fashion designers.<br />
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You are right that our team first posted this detailed history on our Blogspot account, so feel free to visit our site and read that real version from which this came.<br />
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More Than A Century Ago Polyester Came Into Our Lives<br />
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A strong woven fabric was needed by the industrial corporations at the turn of the century. The demand was loud and clear for a product based on a versatile component that could be reliably used in manufacturing and cargo transportation.<br />
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Today we know that most modern webbing is made of synthetic fibers such as polyester, but try to remember that is was not always that way. Cotton webbing and wool webbing used to be quite common. However, growing industries cried out for webbing that was both light and strong, with high breaking strengths suitable to all their needs.<br />
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Science and technology opened a door to a new molecule that clearly met all the needs of the market.<br />
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Polyester industry dates back in the 1920s when W.H. Carothers was contracted by the U.S. based company E.I. du Pont de Nemours and Co. to research large molecules and synthetic fibers. The research led to the discovery of nylon fabric. In the 1930s to early 1940s, Calico Printers Association and Co., a British owned company, further studied the work of W.H. Carothers and discovered ethylene, which paved the way to creation of polyester fibers.<br />
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E.I. du Pont de Nemours and Co. bought the rights to produce the fiber in the U.S.A. and renamed it Dacron. The company carried out extensive research and came up with different and diverse polyester fibers. The polyester industry has evolved over the years and has many varied uses. There are two types of polyester, namely PET (polyethylene terephthalate), PCDT (poly-1,4-cyclohexylene-dimethylene terephthalate).<br />
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You Can Do Much More With This Molecule<br />
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->> Mylar<br />
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Many events rarely end without balloons, what many people do not know is that the balloons are made of polyester and aluminum foil.<br />
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<img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXaG1YNFU0ZXZTODQ&export=download" width="480" /><br />
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The polyester industry has given rise to many companies all over the world that are of the substance.<br />
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->> Pet Bottles<br />
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Before the advent of polyester, bottles were made of glass, but the discovery of polyester gave rise to plastic bottles which are a cheaper version in comparison with the glass ones hence the popular use.<br />
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Raw Materials<br />
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Ethylene is a compound derived from petroleum and it is the key component used in the manufacture of polyester.<br />
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The process of making polyester is called polymerization; ethylene the ingredient derived from petroleum is used as the polymer.<br />
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This is How We Use Polyester Material<br />
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With such a versatile component and foundation, this polyester industry has rapidly evolved, and lead to various and diverse uses for polyester. The applications include the following (of which there are surely dozens more we could add if space permitted):<br />
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Garment manufacturers all over the world make use of polyester to make clothes, furnishings, sheets, seat belts, carpets among many other purposes. The blending of polyester with wool and cotton to make unique types of clothing material makes it the preferred choice to many in the garment industry.<br />
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Outlined below are some of the qualities that make polyester an ideal choice for cloth making.<br />
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A - Tenacious and Durable<br />
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Polyester industry manufactures materials that are ideal for rock climbing, sleeping bags, and other outdoor uses. The reason why polyester is perfect for the outdoors is because it is not only durable but it can withstand damp and wet conditions. There are those polyester manufacturing companies that coat the material with water-resistant finishes. As such, for those who love surfing during winter, they use polyester made gear.<br />
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B - Insulation Properties<br />
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The polyester industry has come up with innovative ways to insulate the polyester fiber during the manufacturing process. They carry out the process by ensuring that they create hollow fibers that keep air trapped inside so that when one wears polyester made clothing, they body temperature warms the polyester clothes and maintains the heat without losing it. Another way to insulate the polyester is through the use of crimped polyester during the filling process.<br />
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C - Does not Wrinkle<br />
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The polyester industry has grown by leaps and bounds because more people are looking for clothes that do not crease. Polyester is an ideal choice for many since it does not crease and when blended with other materials like wool and cotton, it forms some unique pieces of clothing. The material does not stain therefore many people prefer it for pants, skirts, shirts among many other uses.<br />
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Business-focused Concepts on the Ways It Is Made<br />
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There are four manufacturing processes involved in the manufacture of polyester namely; filament, staple, fiberfill and tow.<br />
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** Fiberfill<br />
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Pillows, quilts, and other fillings are manufactured using this process.<br />
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** Tow<br />
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Tow involves combining different filaments closely together.<br />
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** Staple<br />
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Staple manufacturing involves cutting of the strands into specific sizes. The process allows for blending with other materials like wool and cotton.<br />
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** Filament<br />
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During the production of filaments, the strand is made into one long continuous strand.<br />
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Let Us Wrap-up Here<br />
The truth is that polyester continues to prove itself to be a light and strong synthetic fiber that continues to open new doors. Especially with the introduction of microfiber in the early 1990s (a polyester fabric that bears the striking resemblance to silk), the polyester industry has no signs of slowing down.<br />
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Amazing! Am I right? I love this historic article, although I may be biased, am I right?<br />
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To give a precise focus, second time around, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like 2-inch webbing roll.<br />
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Many thanks my dear reader for reading our posts and sharing your ideas and insights on these articles.<br />
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All those who would rather see this in MP4 format, share your thoughts too! If you find that videos add depth and insight to commercial fabric manufacturing processes, then tell us all about it!<br />
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Since my preference continues to be for the written word, I believe there will always be debate among us as to the best balance of content in these posts.<br />
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Stay tuned, because my assistant and I have more articles in the queue nearly ready to share in the days to come. Cheers!<br />
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Before you go: Listen, if you loved the information I shared here today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br />
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Our love for online research and uncovering secrets and hidden bits posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br />
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Looking forward to all you can share there.<br />
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Wrapping up here, be sure to note if you are open to do a guest post about industrial strap or webbing manufacturer. We'd appreciate it if you could better help explain these concepts with a few pictures of two-inch seat belt webbing material.<br />
<br />Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-80465587158255033702016-05-27T08:15:00.001-07:002016-05-27T08:15:25.593-07:00Have you ever wondered how planning commissions take decisions?Listen, just before we get into everything ... I must give you the overview of what we're covering in this segment this time.<br><br>The 3 stories detailed out below are from three different authors, who come from three very different perspectives, and no love is lost between these guys. When I say they do not get along is a serious understatement, okay?!<br><br>At long last, let's get into it!<br><br>My precious followers! 2-inch webbing roll is certainly on my brain, and at present I (Roger Howard, of course!) bring you yet one other very-nearly-brilliant article on material polyester my purpose being to serve you with a number of awesome reads and connect you with various terrific resources.<br><br>And you've probably never witnessed one such as this ... because while it comes to polyester, these author show up from very divergent backgrounds.<br><br>I'm describing more than solely ill-tempered debates. The dudes in this case are NOT buddies. In fact, you'll soon see exactly how their styles are driven by various business needs, and are written from wildly different business goals.<br><br>I tuned into this due to the fact that one of the authors was certainly my trainer back in the day when I first got out of university. So if quite possibly you have enthusiasm in political gossip and insider news, then connect with me on Linkedin and I'll share all the gory details.<br><br>Uh-huh, high stakes, high stress, profit concerns focused on industrial drive things like this:<br><br>Article #1: History Of Fibre Development<br>By Gaurav Doshi<br>Source: http://EzineArticles.com/expert/Gaurav_Doshi/56873<br><br>Different kinds of fibres are available now-a-days. These fibres are mainly divided into two categories natural and man made. They are also categorized by the generations as they were produced in the different years and known as first generation, second generation, third generation or fourth generation fibres.<br><br>The fibres generated first were the natural fibres. In this category cotton, wool, silk and all other animal and plant fibres are included. These fibres were introduced first 4000 years back but their uses were continued till 1940. All these fibres are known as first generation fibres. Very delicate handling is needed for these fibres. Fibres like silks and cottons have not good resistance against moths, wrinkles, wear and washings. So discovery of durable fibres was a greater need and about one century ago first synthesized fibres Rayon/Nylon were produced. These fibres are cheaper in comparison with natural ones. The development of these new fibres opened up fibre application to the various fields like medicine, aeronautics, home furnishing and modern apparels. Fibre engineers produced many new fibres by combining new synthetic fibres with the natural ones.<br><br>In the year 1664 the first attempt was done to make artificial fibre, but success was achieved after 200 years only. A Swiss chemist Audemars first patented artificial fibre in England in 1855. He produced that by dissolving the fibrous inner bark of the mulberry tree and produced cellulose by modifying it chemically. He made threads from the solution by dripping needle in the solution and then drawing them out. His attempt was good but he could not copy the silkworm. He had done experiments with the solution similar to Audemars solution.<br><br>French chemist Hilaire de Chardonnet was the first one to produce artificial silk commercially in the year 1889. Later on he was known as father of rayon industry because he was the first to produce rayon commercially on large scales.<br><br>All the attempts of producing artificial silk failed till the year 1900 but in the year 1910 Samuel Courtaulds and Co. Ltd, formed the American Viscose Company and did production of rayon.<br><br>Arthur D. Little of Boston made a film from acetate which is a cellulosic product in the year 1983 and in the year 1910 Henry Dreyfus and Camille made toilet articles and motion picture film from acetate in Switzerland. In the year 1924 Celanese Company made fibre from the acetate and it was the very first use of acetate in the textile industry. At that time the demand of rayon was high because it was available on the half of the price than raw silk to the textile manufacturers so U.S. rayon production flourished to meet those higher demands.<br><br>About Nylon<br><br>The miracle fibre called Nylon was invented in the September 1931 at the research laboratory of DuPont Company. They saw giant molecules of these polymers when they were working on Nylon '66' and Nylon '6'.<br><br>Nylon is completely synthetic fibre obtained from petrochemicals and is very different from Rayon and Acetate which are made up of cellulosic material of plants. The discovery of Nylon started a new era of manufactured fibres.<br><br>A change in life style<br><br>In the year 1939 commercial production of nylon was started by DuPont. In the very beginning on the experimental basis they used nylon in parachute fabric, in women's hosiery and in sewing thread. Nylon stockings were firstly visible to the public at the San Francisco Exposition in February 1939.<br><br>At the times of war, Asian silk was replaced by nylon in parachutes. The other uses of Nylon are in military supplies, ponchos, tyres, ropes, tents and in the high grade paper to make U.S. currency. At the time of war cotton was the most commonly used fibre and its uses were more then 80% than any other fibres. Another 20% is shared by wool and other manufactured fibres. August 1945 was the time of ending of war, at that time cotton shares 75% of the fibre market and rise of 15% was seen in the market of manufactured fibres.<br><br>One more thought while we have a second, Steve reminded me that we have even more to share on our other web pages. When you're ready for better details, click this little link: <a href='https://issuu.com/rosemontbelt'>Webbing suppliers</a>.<br><br>Check out more great details at our website!<br><br>Now -- jumping ahead to things related to my favorite topic (webbing manufacturer) -- check this out ->><br><br>On a geek-scale of 1-10,<br>this is clearly an 11!<br><br>Strangely enough, only a few of you will love this as deeply as do I.<br>Suffice to say, this is at the deep end of the scientific pool.<br><br>Article #2: Polyurethanes History<br>By Waheed Hassan <br>Source: http://EzineArticles.com/expert/Waheed_Hassan/103462<br><br>The pioneering work on polyurethane polymers was conducted by Otto Bayer and his coworkers in 1937 at the laboratories of I.G. Farben in Leverkusen, Germany. They recognized that using the polyaddition principle to produce polyurethanes from liquid diisocyanates and liquid polyether or polyester diols seemed to point to special opportunities, especially when compared to already existing plastics that were made by polymerizing olefins, or by polycondensation. The new monomer combination also circumvented existing patents obtained by Wallace Carothers on polyesters.Initially, work focused on the production of fibres and flexible foams. With development constrained by World War II (when PU's were applied on a limited scale as aircraft coating), it was not until 1952 that polyisocyanates became commercially available. Commercial production of flexible polyurethane foam began in 1954, based on toluene diisocyanate (TDI) and polyester polyols. The invention of these foams (initially called imitation swiss cheese by the inventors) was thanks to water accidentally introduced in the reaction mix.<br><br>These materials were also used to produce rigid foams, gum rubber, and elastomers. Linear fibres were produced from hexamethylene diisocyanate (HDI) and 1,4-butanediol (BDO). The first commercially available polyether polyol, poly(tetramethylene ether) glycol), was introduced by DuPont in 1956 by polymerizing tetrahydrofuran. Less expensive polyalkylene glycols were introduced by BASF and Dow Chemical the following year, 1957. These polyether polyols offered technical and commercial advantages such as low cost, ease of handling, and better hydrolytic stability; and quickly supplanted polyester polyols in the manufacture of polyurethane goods. Another early pioneer in PU's was the Mobay corporation. In 1960 more than 45,000 tons of flexible polyurethane foams were produced. As the decade progressed, the availability of chlorofluoroalkane blowing agents, inexpensive polyether polyols, and methylene diphenyl diisocyanate (MDI) heralded the development and use of polyurethane rigid foams as high performance insulation materials.Rigid foams based on polymeric MDI (PMDI) offered better thermal stability and combustion characteristics than those based on TDI. In 1967, urethane modified polyisocyanurate rigid foams were introduced, offering even better thermal stability and flammability resistance to low density insulation products.<br><br>Also during the 1960s, automotive interior safety components such as instrument and door panels were produced by back-filling thermoplastic skins with semi-rigid foam. In 1969, Bayer AG exhibited an all plastic car in Dusseldorf, Germany. Parts of this car were manufactured using a new process called RIM, Reaction Injection Molding. RIM technology uses high-pressure impingement of liquid components followed by the rapid flow of the reaction mixture into a mold cavity. Large parts, such as automotive fascia and body panels, can be molded in this manner. Polyurethane RIM evolved into a number of different products and processes. Using diamine chain extenders and trimerization technology gave poly(urethane urea), poly(urethane isocyanurate), and polyurea RIM. The addition of fillers, such as milled glass, mica, and processed mineral fibres gave arise to RRIM, reinforced RIM, which provided improvements in flexural modulus (stiffness) and thermal stability. This technology allowed production of the first plastic-body automobile in the United Sates, the Pontiac Fiero, in 1983. Further improvements in flexural modulus were obtained by incorporating preplaced glass mats into the RIM mold cavity, also known as SRIM, or structural RIM. Starting in the early 1980s, water-blown microcellular flexible foam was used to mold gaskets for panel and radial seal air filters in the automotive industry. Since then, increasing energy prices and the desire to eliminate PVC plastisol from automotive applications have greatly increased market share. Costlier raw materials are offset by a significant decrease in part weight and in some cases, the elimination of metal end caps and filter housings.<br><br>Highly filled polyurethane elastomers, and more recently unfilled polyurethane foams are now used in high-temperature oil filter applications. Polyurethane foam (including foam rubber) is often made by adding small amounts of volatile materials, so-called blowing agents, to the reaction mixture. These simple volatile chemicals yield important performance characteristics, primarily thermal insulation. In the early 1990s, because of their impact on ozone depletion, the Montreal Protocol led to the greatly reduced use of many chlorine-containing blowing agents, such as trichlorofluoromethane (CFC-11). Other haloalkanes, such as the hydrochlorofluorocarbon 1,1-dichloro-1-fluoroethane (HCFC-141b), were used as interim replacements until their phase out under the IPPC directive on greenhouse gases in 1994 and by the Volatile Organic Compounds (VOC) directive of the EU in 1997 (See: Haloalkanes). By the late 1990s, the use of blowing agents such as carbon dioxide, pentane, 1,1,1,2-tetrafluoroethane (HFC-134a) and 1,1,1,3,3-pentafluoropropane (HFC-245fa) became more widespread in North America and the EU, although chlorinated blowing agents remained in use in many developing countries.<br><br>Building on existing polyurethane spray coating technology and polyetheramine chemistry, extensive development of two-component polyurea spray elastomers took place in the 1990s. Their fast reactivity and relative insensitivity to moisture make them useful coatings for large surface area projects, such as secondary containment, manhole and tunnel coatings, and tank liners. Excellent adhesion to concrete and steel is obtained with the proper primer and surface treatment. During the same period, new two-component polyurethane and hybrid polyurethane-polyurea elastomer technology was used to enter the marketplace of spray-in-place load bed liners. This technique for coating pickup truck beds and other cargo bays creates a durable, abrasion resistant composite with the metal substrate, and eliminates corrosion and brittleness associated with drop-in thermoplastic bed liners. The use of polyols derived from vegetable oils to make polyurethane products began garnishing attention beginning around 2004, partly due to the rising costs of petrochemical feedstocks and partially due to an enhanced public desire for environmentally friendly green products. One of the most vocal supporters of these polyurethanes made using natural oil polyols is the Ford Motor Company.<br><br>Article #3: Fabrics Used to Make Material in Today's Textile Industry - Silk<br>By Jeffrey Ware<br>Source: http://EzineArticles.com/expert/Jeffrey_Ware/146404<br><br>Choosing the fabric your clothing is made with is important. This choice can make the difference in the look, comfort, durability, or practicality of the purpose of the particular article of clothing. The choice of fabrics is never more important that the clothes you wear every day at work. Your work uniform must be comfortable yet durable. It must be stylish yet practical. The average person will spend more time wearing their uniform than any other article of clothing with maybe the exception of sleep clothing. The fabric your uniform is made from is important and with today's fabrics you have a wider choice than ever.<br><br>Every fabric used to manufacture clothing today has its own characteristics and uses. When choosing clothing as important as your uniform, it is important that you understand the characteristics of the different fabrics. This is the first in a series of articles where we will explore the different fabrics and manufacturing process of common fabrics.<br><br>We will discuss fabrics such as cotton, wool, nylon, polyester and many other natural and synthetic fabric materials. Information will be presented about the history, manufacturing methods, characteristics, and uses of the different fabrics. Information concerning the cares of fabrics will also be presented.<br><br>This is the second in my series of fabric characteristics (the first was about cotton) and again we will go way back to the beginning of another natural fabric, silk. Silk dates back as far as cotton as a material in which clothing and material were made from. Silk was a material that separated the common man from the elite population of early times. Evan today, silk material is commonly found used by the upper class of society.<br><br>History:<br><br>The exact history of silk is somewhat of a mystery. Historians say that silk production, called Sericulture, originated in China 10,000 years ago. However ancient Chinese legends contribute the origination of Sericulture to the Chinese empress Si Ling Chi who ruled in 2,600 BC.<br><br>The story goes that one day Empress Si Ling Chi was sitting under a Mulberry tree in her palace garden drinking some tea. A cocoon from a silkworm fell into her cup of hot tea. She watched as the silk fibers of the cocoon began to unravel in the hot liquid. She became recognized as the goddess of silk worms.<br><br>The production of silk slowly developed into manufacturing process in China by the 14th century. Silk production became a cornerstone of the Chinese economy where the silk was used for musical instruments, fishing lines and bowstrings. Silk was also used to pay the civil servants in China as a reward from the rulers. The Chinese also used ilk in foreign trade exchanging it for spices and jewels brought from India.<br><br>The Chinese kept the secret of silk production to themselves for more than two thousand years. It was so guarded that a penalty of death was placed on anyone found guilty of smuggling silkworm eggs, cocoons, or mulberry seeds out of the country. But buy the year of 200 BC the secret of silk had spread to Korea and then slowly throughout the rest of Asia and India.<br><br>It wasn't until the 13th century that silk production reached Italy when Persia sent 2000 skilled silk weavers. Those led to the production of silk throughout Europe. Even though silk production has spread worldwide, China is still the largest producer of the world's silk today.<br><br>Manufacturing process:<br><br>The manufacturing process of silk begins with the silkworm its natural ability to produce silk fiber and spin their cocoon with it. There are basically two types of silkworms. One is the silkworm that feeds on oak leaves and produce Tusha silk. The other, mulberry silk moth, produces the highest quality silk called Bombyx mori. This silkworm feeds on the leaves of the mulberry tree. The silkworms spin a cocoon that contains an average of 300-400 meters of silk fiber. It takes up to 5500 silkworms to produce 2lbs of raw silk fibers.<br><br>The production of the silkworm's cocoon to make silk filament is called sericulture. Sericulture is done under controlled conditions and environments on silk farms. The silk worms are raised from eggs and allowed to go through its entire life cycle. The optimal time for harvesting silk is at the cocoon stage.<br><br>The cocoons are harvested and sent to the factory called a filature. Here the cocoons are unwound into silk strands and collected on skeins. The operation consists of four separate operations:<br><br>o Sorting of Cocoons; Cocoons are sorted according to color, size, shape and texture.<br><br>o Softening; the sorted cocoons are immersed in a series of hot and cold solutions to soften the fibers to permit unwinding.<br><br>o Reeling the filament; consist of unwinding the cocoons and twisting the strands together to make a silk thread.<br><br>o Bailing; The silk thread is wrapped onto skeins and packed into small bundles called books. The books are put into bales and shipped to the silk mills where it is woven into material.<br>Characteristics:<br><br>Silk is a protein fiber which gives silk material its characteristics. Silk has a high tensile strength but won't stand up to heavy use or abrasions. Silk will become brittle when exposed to sunlight, high alkalinity, acid, or oily soils will breakdown silk fibers. The appearance of silk depends on the size of the silk yarn used to make the fabric. Large yarn may make the material appear more like cotton or a synthetic. Small well refined yarn will give the silk material the silky feel and look we expect.<br><br>Uses:<br><br>Silk is still today the primary material used to make our finest outerwear. Luxury clothing including fine silk suits and evening gowns are made of the finest silk material.<br><br>Other uses of silk material include:<br><br>o Women's and men's lingerie because of silk's softness and brilliant colours.<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXaG1YNFU0ZXZTODQ&export=download" width='480'/><br><br>o Silk laces and tulles: Ideal for bridal gowns and veils<br>o Hosiery<br>o Scarves<br>o Ties<br>o Decorative articles such as bows and ribbons<br>o Furnishing and upholstery<br>o Insulation<br><br>Care:<br><br>For the most part silk garments should be dry cleaned to prevent damage of a breakdown of the fibers. Certain silks may be hand washed and line dried or tumble dried with low heat. Silk garments are also known as the wash and wear material because it is resistant to wrinkling.<br>Silk material is prone to moth attacks especially when in storage. Silk garments should be stored appropriately. They may be wrapped in a cotton fabric or other breathable fabric. Silk should not be stored in plastic or other sealed containers that can trap moister. This may lead to mildew and yellowing.<br><br>Chlorine bleach should never be used. This will cause the fabric to yellow and break down.<br>I sincerely hoped you enjoyed this article. Please look forward to my next article where we will discuss a synthetic fiber - polyester.<br><br>Hey wasn't that a spectacular read?<br><br>You're right, it was extremely geeky, I know! Still, I am sure you are as delighted about webbing straps as I was while I stumbled upon it. There are many more in the Pandora's Box of awesome subjects, from where this content related to 1.5 inch seat belt webbing entered and I am not going to lag behind in delivering more concerning this to you. Though I am on the look out for some additional interesting stuff in this genre, I would enjoy your feedback on this one. Tell me what you think about the story, the graphics and the film, and if it all was aligned with what you anticipated to discover in this discipline.<br><br>Before you go: listen, for those who got a lot out of the information I shared here today, could I recruit you for a few minutes... and be honest as to the extent this is aligned with your interests?<br><br>Either way, please watch this space my friends... because my assistant and I have more articles in the queue nearly ready to share in the days to come.<br><br>One last request, be sure to note if you can jump on a call with me to record an interview on industrial strap or strap webbing. I'd personally love your help in explaining these ideas with a few pictures of 1.5 inch seat belt webbing.<br><br>Cheers!<br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-42313036110344834582016-05-23T12:40:00.001-07:002016-05-23T12:40:44.704-07:00Are you curious about new uses of synthetic or polyester web?Preface note first -- let me explain -- today's excerpts come from these really fun bits that we found in our morning surf online. As you will see, the information we found today will be of great interest to those who love posts has tons of info in our favorite scientific arenas.<br><br>We have even more -- outrageous as it may seem -- to share on our main site. So if you'd love better detailed content, then click this little link: <a href='https://www.igotbiz.com/rosemontbelt'>Two-inch seat belt webbing</a>.<br><br>Now onto our post:<br>Salutations my reader, Roger Howard here, your commercial fabrics guy. My team and I are ready to deliver to you a great industrial fabrics article with you.<br><br><a href='https://www.igotbiz.com/rosemontbelt'>Two-inch seat belt webbing</a> material is what I'm all about, so it may be a bit of a surprise to you that I only found two topics of interest today: automotive webbing and web distributor.<br><br>As always, if you prefer to watch videos, that's no problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br><br>I have to say that I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br><br>That's enough delay, right? So here is what I am eager to share today. This article provides great background and insight to the science behind narrow seat belt webbing:<br><br>It's just the way it is in the polyester manufacturing business sector that entreprenuers like us need to network and build out our relationships each and every week. I was at our local Chamber of Commerce conference last month and met a new member recently transferred from the west coast. He's recently worked directly with narrow material matters in the American Fiber Manufacturers Association, Inc. (AFMA).<br><br>I must admit -- to be sincere -- that I actually had not came across the American Fiber Manufacturers Association (humiliating, yes, I know). It seemed like a perfect opportunity to share an overview with you all (on the outside chance that a few of you may be curious about the AFMA as was I.<br><br>Citation / Source: www.fibersource.com/afma/afma.htm<br>The Exclusive Source of Information on Manufactured Fibers<br><br>The American Fiber Manufacturers Association, Inc. (AFMA) is the trade association for U.S. companies that manufacture synthetic and cellulosic fibers. The industry employs 27 thousand people and produces over 6 billion pounds of fiber in the U.S. Annual domestic sales exceed $8 billion. The membership is limited to U.S. producers that sell manufactured fiber in the open market. <br><br>The Association maintains close ties to other manufactured fiber trade associations worldwide.<br><br>AFMA has been in continuous operation since 1933, when it was established as the Rayon Institute with headquarters in New York. As new fibers entered the market, the Association was renamed the Man-Made Fiber Producers Association. In 1970, operations were moved to Washington as the focus grew from promotion to include advocacy on a broad range of regulatory and international trade issues. The current name for the Association was adopted in 1988.<br><br>The Association's Board of Directors is made up of senior executives from each of AFMA's member companies. Most AFMA programs are managed through committees and task groups of policy and technical experts from the companies. Permanent standing committees include the Trade and Statistics Committee, and the Technical Committee. The Technical Committee has task groups dealing with: Product Stewardship, Regulatory Affairs, Technical Communications, Toxicology, Product Flammability, and International Technical Affairs.<br><br>AFMA's statistics division, the Fiber Economics Bureau (FEB), collects and publishes trade and production data on the manufactured fiber industry. The FiberSource site is maintained by FEB.<br><br>AFMA offices are located at 3033 Wilson Boulevard, Suite 700, Arlington, VA 22201. We can be reached by phone at 703-875-0432; by FAX at 703-875-0907; and by Email. <br><br>I'll wrap it up there, even though -- as you can see -- there are so many more topics we could dig into about this association. You're 100% welcome to visit their site and dig deeper. Feel free to read their library of truly interesting content.<br><br>Since strap polyester work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br>I specifically sought out this one because it came to mind while reading the previous site. This is fundamentation to our industrial webbing vertical market, and, to be honest, I've benefited a lot from networking with people in this AMPEF association, and recommend it highly.<br><br>Citations / Sources found on this domain www.ampef.com<br><br>When the world thinks of plastic films, it thinks of PET.<br><br>The global Association of Manufacturers of Polyester Film (AMPEF) welcomes you to our site. As a non-profit-making organization, our primary purpose is to inform and educate manufacturers, suppliers, end-users, and guests through our site about polyester (PET, PETF and BOPET) film and to encourage its use as a solution for a variety of markets throughout the world.<br><br>Within our pages, you will find general information on polyester packaging, specialty industrial, magnetic, metalized, and plastic and polymer-based applications, as well as details on our association's recycling and returnables programs. You will also find information on AMPEF's members and officers.<br><br>At AMPEF, our mission is to:<br><br> Promote the use of polyester film, while focusing on sustainable growth and environmental "greenness;"<br> Communicate and promote awareness about AMPEF and its activities;<br> Seek solutions to issues of general interest to all members, including health and safety and environmental topics;<br> Collate and disseminate overall industry statistics and other industry information, including industry news and developments; and<br> Improve communication within the industry, and its suppliers, customers, and consumers.<br><br>The object of the association, in the general interest and in all countries, is to:<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXYTJtZzlFZFVNVUk&export=download" width='480'/><br><br><br> Encourage the development, continuous improvement, and use of polyester film;<br> Study and understand the polyester film market;<br> Seek solutions to problems, particularly with respect to governmental standards and technical regulations;<br> Collect historical information and statistical data on polyester film; and<br> Maintain relationships with all similar organizations—public or private.<br><br>Polyester Film Applications<br><br>Packaging: Food packaging general uses, film for flexible pouches, peel-able seals, lids, snacks, barrier films, can laminations, and vacuum insulation panels<br><br>Industrial & Specialties: Hot stamping foil, release films, photo resist films, metallic yarns, adhesive tapes, plastic cards (including "smart" cards), labels, lamination films, brightness enhancement films (computer screens), solar/safety window films, medical test strips, and miscellaneous uses<br><br>Electrical: Motor wire and cable, transformer insulation films, capacitors, thermal printing tapes, membrane touch switches (computer and calculator keyboards), and flexible printed circuit films<br><br>Imaging: Microfilm, printing and pre-press films,color proofing, printing plates, drawing office drafting film, overhead transparencies, X-ray films, instant photos, business graphics, and wide format displays<br><br>Magnetics: Videotape, audio cassette tape, floppy disks, and advanced high-density computer storage media<br><br>Just one more, since this is a big one, and no commercial association overview would be complete with out it. This group is essential to our industrial webbing industry, and I know a lot of sales professionals who share leads through this association, so I highly recommend it.<br><br>Citation / Source www.plasticsindustry.org/aboutspi/?navItemNumber=1009<br><br>Founded in 1937, SPI: The Plastics Industry Trade Association promotes growth in the $427 billion U.S. plastics industry. Representing nearly one million American workers in the third largest U.S. manufacturing industry, SPI delivers advocacy, market research, industry promotion, and the fostering of business relationships and zero waste strategies. SPI also owns and produces the international NPE trade show. All profits from NPE are reinvested into SPI’s industry services.<br><br>"From resin suppliers and equipment makers to processors and brand owners, SPI is proud to represent all facets of the U.S. plastics industry," said William R. Carteaux, president and CEO, SPI. "Our most recent economic reports show that the plastics industry as a whole is resilient, and has come through the recession significantly better than other U.S. manufacturing sectors."<br><br>The association is structured to meet the diverse needs of the entire plastics industry. As SPI prepares for the future, member engagement in formulating strategy, developing priorities and supplying expertise is critical to our success. From the Executive Board to our three sector Councils (Equipment, Material Suppliers and Processors) and the variety of product/policy committees and self-funded groups, there is a strong foundation already in place to build SPI's new business blueprint. <br><br>To see up to date news, visit the site to read articles like these:<br><br>Plastics Industry Applauds MTB Passage<br>May 20, 2016<br>The $427-billion U.S. plastics industry applauded President Barack Obama after he signed H.R. 4923, the American Manufacturing Competitiveness Act of 2016, into law Friday. The bill establishes a new Miscellaneous Tariff Bill process that America’s manufacturers can use to avoid having to pay tariffs on imported products of which there’s no suitable U.S.-based supplier.<br><br>American Progressive Bag Alliance to Submit Signatures to Qualify Environmental Fee Protection Act Initiative<br>May 19, 2016<br>The initiative would direct all money generated or collected under a state law that mandates consumer charges for carryout bags to an environmental fund, rather than to grocers’ profits.<br><br>SPI Welcomes First General Counsel, Kiran Mand<br>May 19, 2016<br>SPI: The Plastics Industry Trade Association announced this week the appointment of Kiran Mand as its first-ever general counsel.<br><br>OSHA Issues Final Rule to “Improve Tracking of Workplace Injuries and Illnesses”<br>May 16, 2016<br>Effective January 1, 2017, certain employers will be required to electronically submit to the Occupational Safety and Health Administration (OSHA) the injury and illness records they are currently required to keep under existing OSHA regulations.<br><br>Interesting info, am I right? Yes, of course! 1 inch web material is what it's really all about, am I right? That's the one fabric we all have in common. To be direct, if you're not in our vertical market, then this entire article is likely something you'll need to just send to a different department, right?<br><br>Believe it or not, we have even more to share on our branded site. When you're ready for better details, take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>Two-inch seat belt webbing</a>.<br><br>To be clear, before we finish this post -- if I may -- today's insights come from simple dialogs at a networking meeting. You can get the same results by taking the same actions. In fact, you can get solid business insights by making opportunities to talk with business professionals in your area today.<br><br>My passion for scouring the web for secrets posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>We're looking forward to all you can share there.<br><br>Since my assistant and I have more articles in the queue nearly ready to share in the days to come, so watch this space my friends...<br><br>In case I've not yet said it, "Cheers" my dear reader for following our blog and sending us your comments and insights on these articles.<br><br>Once again, we always appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like 2-inch webbing roll.<br><br>*Hey* Listen, if you loved the content today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>To be bold, be sure to note if you are open to do a guest post about material polyester or supplier webbing. We'd appreciate it if you could better help explain these concepts with a few pictures of narrow fabric seat belt web.<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-78083953365395209942016-05-20T02:43:00.001-07:002016-05-20T02:43:27.034-07:00Did you know our humble polyester molecule dates back nearly 100 years??Hi! To all our followers! As always, I'm your commercial fabrics guy, eager to drop a few lines about truly interesting textile process and procedure concepts.<br><br>Your compatriot Roger Howard here writing clever insights for you -- indeed, I am the prolific commercial fabrics guy) -- and ready to share amazin textiles data with you!<br><br>Correct my friend, this is your commercial fabrics guy, and I have yet another textiles historic insight to send your way. Are you new?? Great!! Hello! Roger Howard here, I'm your intrepid author, eager to get into all we've found today.<br><br><a href='https://www.igotbiz.com/rosemontbelt'>1.5 inch seat belt webbing</a> is what we've worked on all these years, so it may seem odd that I only found two topics of interest today: material polyester and strap polyester.<br><br>Before I go too far -- let me explain -- today's insights come from experts' posts that my assistant and I uncovered in today's careful examination of the "Interwebs".<br><br>Truth be told, the information we found today will be of great interest to those who love posts with lots of details in the world of commercial science.<br><br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXMGcxdGlqWWl5V0U&export=download" width='480'/><br><br>Listen, would you rather see videos? No problem! I'm building a list of relevant videos that will give a bit more depth and insight to commercial fabric manufacturing processes, and plan to include those in my posts in the coming days.<br><br>To be clear, I prefer the written word (because I like to study this type of material line by line, and take notes on how I’ll add new options for our clients' real-world webbing applications!).<br><br>Let me be honest, my friends, we have even more to share on our primary site. When you're ready for better details, take a peek here: <a href='https://www.igotbiz.com/rosemontbelt'>1.5 inch seat belt webbing</a>.<br><br>Without further delay, here is what I am eager to share today. This article provides great background and insight to the science behind 1 inch web material:<br><br>Durability and strength of the material make it a sought after option for many businesses across the globe. Simple things, like the way the woven material can be preshrunk during the manufacturing process makes it a valuable asset to business that require a fabric with consistently non-shrinking properties.<br>Allergy sufferers love polyester fabric for its non-allergic properties. In fact, many people prefer the material for making quilts, pillows, bed sheets (among other uses) for this target audience that is willing to pay more to get the relief they need in hypoallergenic materials.<br><br><br>Source: http://textilesblogs.blogspot.com/ /2016/05/whats-most-effective-way-to-make.html<br><br>Recent Research Confirms All Of This: It's No Secret That... Manufacturing Processes Are Critical for Polyester Polymerization.<br>Initial Fabrication<br><br>A catalyst is mixed with ethylene glycol and dimethyl terephthalate at a temperature of 150-210 degrees centigrade. The resulting substance is then combined with terephthalic acid. It is allowed to boil at a temperature of 280 degrees centigrade where it forms polyester which is in liquid form. The liquid is allowed to pass through a machine that makes the filaments, tow, fiberfill or staple.<br><br>Drying<br><br>The liquid polyester ribbons are allowed to cool until hard enough. They are then cut into tiny pieces to ensure that no air was trapped in the filament during the manufacturing process.<br><br>Spinning<br><br>Melting of the chips is done at 260-270 degree centigrade, and the resulting solution passes through a spinneret which is metallic and has tiny holes. The holes are of various sizes and forms’ depending on what the company is looking to achieve. It is during this process that different chemicals are added for instance those that will make the final product non-flammable.<br><br>After the spinning process is complete, the fiber is allowed to dry. Specialized machines do the draw of fiber. The fibers are soft, and it is at this stage that texturing, twisting and other processes take place. The fiber is then packaged into a form that it will be easier to weave it into the desired material.<br><br>The manufacturing process of tow is quite different from that of filament manufacture.in that the spinneret machine has smaller holes. The tow fiber that is produced is stored in containers which are specifically for cooling. With technology advancements and the fact that polyester blends easily with natural materials like cotton, wool among others makes it the best choice for many fashion designers.<br><br>Correct my friends, our team first shared this detailed history on our Blogspot account, so feel free to visit our site and read that real version from which this came.<br><br>Polyester Historical Notes<br><br>A strong woven fabric was needed by the industrial corporations at the turn of the century. The demand was loud and clear for a product based on a versatile component that could be reliably used in manufacturing and cargo transportation.<br><br>Today we know that most modern webbing is made of synthetic fibers such as polyester, but try to remember that is was not always that way. Cotton webbing and wool webbing used to be quite common. However, growing industries cried out for webbing that was both light and strong, with high breaking strengths suitable to all their needs.<br><br>Science and technology opened a door to a new molecule that clearly met all the needs of the market.<br><br>Polyester industry dates back in the 1920s when W.H. Carothers was contracted by the U.S. based company E.I. du Pont de Nemours and Co. to research large molecules and synthetic fibers. The research led to the discovery of nylon fabric. In the 1930s to early 1940s, Calico Printers Association and Co., a British owned company, further studied the work of W.H. Carothers and discovered ethylene, which paved the way to creation of polyester fibers.<br><br>E.I. du Pont de Nemours and Co. bought the rights to produce the fiber in the U.S.A. and renamed it Dacron. The company carried out extensive research and came up with different and diverse polyester fibers. The polyester industry has evolved over the years and has many varied uses. There are two types of polyester, namely PET (polyethylene terephthalate), PCDT (poly-1,4-cyclohexylene-dimethylene terephthalate).<br><br>There So Many Ways To Benefit From Polyester<br><br>->> Mylar<br><br>Many events rarely end without balloons, what many people do not know is that the balloons are made of polyester and aluminum foil.<br><br>The polyester industry has given rise to many companies all over the world that are of the substance.<br><br>->> Pet Bottles<br><br>Before the advent of polyester, bottles were made of glass, but the discovery of polyester gave rise to plastic bottles which are a cheaper version in comparison with the glass ones hence the popular use.<br><br>What Does Ethylene Have To Do With Polyester?<br><br>Ethylene is a compound derived from petroleum and it is the key component used in the manufacture of polyester.<br><br>The process of making polyester is called polymerization; ethylene the ingredient derived from petroleum is used as the polymer.<br><br>We'll Put Polyester into Action<br><br>With such a versatile component and foundation, this polyester industry has rapidly evolved, and lead to various and diverse uses for polyester. The applications include the following (of which there are surely dozens more we could add if space permitted):<br> <br>Garment manufacturers all over the world make use of polyester to make clothes, furnishings, sheets, seat belts, carpets among many other purposes. The blending of polyester with wool and cotton to make unique types of clothing material makes it the preferred choice to many in the garment industry.<br><br>Outlined below are some of the qualities that make polyester an ideal choice for cloth making.<br><br>A - Tenacious and Durable<br><br>Polyester industry manufactures materials that are ideal for rock climbing, sleeping bags, and other outdoor uses. The reason why polyester is perfect for the outdoors is because it is not only durable but it can withstand damp and wet conditions. There are those polyester manufacturing companies that coat the material with water-resistant finishes. As such, for those who love surfing during winter, they use polyester made gear.<br><br>B - Insulation Properties<br><br>The polyester industry has come up with innovative ways to insulate the polyester fiber during the manufacturing process. They carry out the process by ensuring that they create hollow fibers that keep air trapped inside so that when one wears polyester made clothing, they body temperature warms the polyester clothes and maintains the heat without losing it. Another way to insulate the polyester is through the use of crimped polyester during the filling process.<br><br>C - Does not Wrinkle<br><br>The polyester industry has grown by leaps and bounds because more people are looking for clothes that do not crease. Polyester is an ideal choice for many since it does not crease and when blended with other materials like wool and cotton, it forms some unique pieces of clothing. The material does not stain therefore many people prefer it for pants, skirts, shirts among many other uses.<br><br>Questions About The Basic Manufacturing Steps...<br><br>There are four manufacturing processes involved in the manufacture of polyester namely; filament, staple, fiberfill and tow.<br><br><br>** Fiberfill<br><br>Pillows, quilts, and other fillings are manufactured using this process.<br><br>** Tow<br><br>Tow involves combining different filaments closely together.<br> <br>** Staple<br><br>Staple manufacturing involves cutting of the strands into specific sizes. The process allows for blending with other materials like wool and cotton.<br> <br>** Filament<br><br>During the production of filaments, the strand is made into one long continuous strand.<br><br>Summary<br>The truth is that polyester continues to prove itself to be a light and strong synthetic fiber that continues to open new doors. Especially with the introduction of microfiber in the early 1990s (a polyester fabric that bears the striking resemblance to silk), the polyester industry has no signs of slowing down.<br><br>Fabulous! Am I right? I love this historic article, although I may be biased, am I right?<br><br>To give a precise focus, once again, I very much appreciate this venue in which we can share exciting articles like this, and open our minds to the history of commercial fabrics like seat belt webbing 2 inch or <a href='https://www.igotbiz.com/rosemontbelt'>1.5 inch seat belt webbing</a>.<br><br>Cheers my dear reader for reading our posts and sharing your ideas and insights on this info.<br><br>All those who would rather see this in MP4 format, share your thoughts too! If you find that videos add depth and insight to commercial fabric manufacturing processes, then tell us all about it!<br><br>Since my preference continues to be for the written word, I believe there will always be debate among us as to the best balance of content in these posts.<br><br>Watch this space my friends... because my assistant and I have more articles in the queue nearly ready to share in the days to come. Cheers!<br><br>*Also* Listen, if you loved the content today, will you do me a kind favor and be honest as to how much it is in line with your interests?<br><br>My passion for scouring the web for secrets posted by the world’s most clever people is nearly boundless (especially when my assistant and I get together and start talking about the history, science, and amazingly diverse applications of our product lines!).<br><br>Looking forward to all you can share there.<br><br>One last request, if I may, be sure to note if you are open to do a guest post about poly web material or seatbelt webbing. We'd appreciate it if you could better help explain these concepts with a few pictures of <a href='https://www.igotbiz.com/rosemontbelt'>1.5 inch seat belt webbing</a>.<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-40728610285480988222016-05-18T14:04:00.001-07:002016-05-18T14:04:42.345-07:00When politicians fight people tune-inDarling readers!<a href='http://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel'>2-inch webbing roll</a> is actually on my mind, and right now I (Roger Howard, of course!) bring you yet another very-nearly-brilliant post on narrow material my aim being to serve you with various awesome reads and connect you with some great resources.<br><br>* BUT * before we get into all that ... I have a hot political segment to publish!<br><br>And you've in all probability * never * come across one such as this ... because when politicians fight people tune-in. I'm describing more than just furious words. The dudes in this circumstance are buddies; you'll see exactly how they had a go toe-to-toe in this brawl ...<br><br>I tuned into this because one of the two was my director back in the day when I first got out of college. So if perhaps you have enthusiasm in political malicious talk and insider news, then read on.<br><br>Yep, high stakes, high tension, legislative concerns concentrated on commercial cargo ships:<br><br>"How the Harbor District Found Itself in the Middle of Humboldt’s Most Bitter Political Fight
"<br>Author: Ryan Burns<br>Source: https://lostcoastoutpost.com/2016/apr/29/how-harbor-district-found-itself-center-countys-mo/<br><br>Last week, two elected officials got into a face-to-face, toe-to-toe, “let’s take this outside”-style argument during a break in a Planning Commission meeting. This wasn’t a personal beef (the men each told the Outpost afterward that they consider each other friends). Nor was it about a property dispute that affects either man directly.<br><br>No, the spat boiled over from a long-simmering political dispute over management of Humboldt Bay. Former Planning Commissioner Dennis Mayo and current Harbor Commissioner Richard Marks (the officials in last week’s quarrel) stand on separate sides of a philosophical and tactical divide that has gradually expanded to define Humboldt County’s most bitter political struggle — whether we should wait for big, blue-collar industries to arrive on our shores via sea and rail, or start allowing other businesses to use that land.<br><br>With a 5-1 vote the Planning Commission sided with the Mayo contingent, which envisions Humboldt Bay as a major industrialized seaport offering international shipping and a rebuilt (or freshly built) railroad connecting our county to the national rail network.<br><br>Marks and his fellow Harbor Commissioners, meanwhile, are pursuing a more economically diversified approach. At last week’s meeting, Division 5 Commissioner Patrick Higgins told the Planning Commission that the Harbor District almost went broke trying to market our harbor to industrial shipping interests. The time has come, he said, to loosen zoning restrictions on the vacant and deteriorating land surrounding the bay so other types of businesses can move in.<br><br>The ultimate decision on this matter lies with the Humboldt County Board of Supervisors, which will have to decide which side of that political chasm to stand on. And while their decision might not dictate the future of Humboldt Bay, it could have significant impacts on property owners and infrastructure around the harbor.<br><br><br>Yes indeed, there is much more where that came from.<br><br>Now -- jumping ahead to things related to my favorite topic (web distributor) -- check this out ->><br><br>In our nerd rating range of 1-10,<br>this is clearly an 11!<br><br>Strangely enough, only a few of you will love this as deeply as do I.<br>None the less, suffice to say, this is at the deep end of the scientific pool.<br><br>Truth be told, the scientists featured here are personal friends of our company in general, and me in particular. By all means, take a few minutes to read through these and let us know if your business works in a realm that can leverage this approach.<br><br>Modifying the UV Blocking Effect of Polyester Fabric<br>Source: http://trj.sagepub.com/content/74/6/469.short<br><br>Marija Gorenšek<br>Faculty of Natural Sciences and Engineering, Department of Textiles, University of Ljubljana, SI-1001 Ljubljana, Slovenia<br><img border="0" src="https://docs.google.com/uc?id=0Bz0KhgCQTJAXeVZQWlI5RW02QW8&export=download" width='480'/><br><br><br>Franci Sluga<br>Faculty of Natural Sciences and Engineering, Department of Textiles, University of Ljubljana, SI-1001 Ljubljana, Slovenia<br><br><br>Abstract<br><br>The influence of conventional acid and alkaline high temperature dyeing procedures on fabric construction is investigated. The effects of weave construction, orange, red, and blue disperse dyes, double layers of fabrics, and UV absorber on the ultraviolet protection factors (UPF) of polyester fabrics are the topics of this research. A spectrophotometer with an integrating sphere is used to measure the uv transmittance of polyester fabrics according to an AATCC test. Small differences in the weight of fabrics after blind dyeing procedures already influence the uv transmittance of fabrics. Pale orange and blue dyed fabrics show a high enough UPF, while a pale red dyed fabric does not reach such values. Deep dyed and double layered fabrics and fabrics aftertreated with a UV absorber reach high UPF values.<br><br>. . . <br><br>"Influence of reactive dyes on ultraviolet protection of cotton knitted fabrics with different fabric constructions
"<br>Source: http://trj.sagepub.com/content/86/5/512.abstract<br><br>
<br><br> Wai-yin Wong, Institute of Textiles and Clothing, The Hong Kong Polytechnic University, Hong Kong<br> Jimmy Kwok-cheong Lam, Institute of Textiles and Clothing, The Hong Kong Polytechnic University, Hong Kong<br> Chi-wai Kan, Institute of Textiles and Clothing, The Hong Kong Polytechnic University, Hong Kong<br> Ron Postle, School of Chemistry, University of New South Wales, Australia<br><br> Dr Chi-wai Kan, Institute of Textiles and Clothing, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong. Email: tccwk [at] polyu.edu.hk<br><br>Abstract<br>Influence of reactive dyes on ultraviolet protection of cotton knitted fabrics with different fabric constructions
Wai-yin Wong1
Jimmy Kwok-cheong Lam1
Chi-wai Kan1⇑
Ron Postle2
1Institute of Textiles and Clothing, The Hong Kong Polytechnic University, Hong Kong
2School of Chemistry, University of New South Wales, Australia
Dr Chi-wai Kan, Institute of Textiles and Clothing, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong. Email: tccwk [at] polyu.edu.hk
Abstract
The influence of coloration on ultraviolet (UV) protection of cotton knitted fabrics with different knit structures incorporated with the three major stitch types, namely knit, tuck and miss stitches, are studied in four approaches. <br><br>The effects of color depth and knit structures on the ultraviolet protection factor (UPF) of fabrics are investigated. The influences of hue and color depth on the UPF of fabrics are also compared. Since UV protection offered by dyes mainly depends on their chemical structures, the UPF and color strength of fabrics colored by reactive dyes that varied in reactive groups, such as mono-functional and bi-functional reactive dyes, are examined. The correlations between UPF and the CIELAB color coordinates, color strength (K/Ssum), are analyzed. The results show that light-colored fabrics with compact structures achieve similar or even better UV protection than the dark-colored fabrics with loose structures. <br><br>This implies that color property might not be a reliable indicator for UV protection of knitted fabrics and the effect of coloration on UV protection is affected by fabric construction. The results also denote that the chemical structure of reactive dyes affects the UV protection of fabrics in a qualitative approach that depends on the unique ultraviolet radiation blocking ability of the chemical constituents. Among the color coordinates investigated, only lightness (L*) and K/Ssum are found to be correlated with the UPF of the fabrics, but the strength of correlations is not very strong. This is because the fabric characteristics that have significant impacts of UV protection are mostly not involved in the measurement of color properties.
"<br><br>"Enhancing disperse printing and ultraviolet protecting of polyester-containing fabrics via pretreatment with chitosan/polyethylene glycol/dimethylol dihydroxyethylene urea"<br>Source: http://jit.sagepub.com/content/42/3/269.abstract<br><br> NA Ibrahim 1<br> EMR El-Zairy 2<br> MR El-Zairy 2<br> HM Khalil 2<br><br> 1 Textile Research Division, National Research Centre, Dokki, Cairo, Egypt<br> 2 Textile Printing, Dyeing and Finishing Division, Faculty of Applied Arts, Giza, Egypt<br><br> NA Ibrahim, Textile Research Division, National Research Centre, Dokki, Cairo, Egypt Email: nabibrahim [at] hotmail [dot] com<br><br><br>Abstract<br><br>Pretreatment of polyester-containing fabrics with chitosan, polyethylene glycol along with N-methylol crosslinking agent (Arkofix® NDW, DMDHEU) in the presence of MgCl2. <br><br>6H2O/citric acid as a mixed catalyst was carried out for enhancing their printability with disperse dyes as well as upgrading their ultraviolet-protecting properties. <br><br>The results showed that the changes in the depth of the obtained prints are governed by the type of substrate, chitosan concentration and steaming conditions. <br><br>On the other hand, incorporation of polyethylene glycol in the pretreatment bath results in a remarkable improvement in the depth of the post-printed fabric samples. <br><br>Scanning electron microscope images showed the presence of chitosan-based deposits firmly attached to the surface of the pretreated fabric samples. <br><br>The mechanism of surface modification via loading of chitosan with its amino groups along with polyethylene glycol moieties onto and/or into the finish/fabric matrix was proposed.<br><br>Superbly geeky, I know! Still, wasn't that a spectacular read? I am sure you are as inspired about seatbelt webbing (<a href='http://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel'>2-inch webbing roll</a>) as I was while I stumbled upon it. There are various other in the Pandora's Box of mind-blowing matters, from where this content related to <a href='http://www.yelloyello.com/places/rosemont-textiles-automotive-seat-belt-aftermarket-material-wholesale-adel'>2-inch webbing roll</a> arrived and I am not going to hang back in introducing more of this to you. Although I am on the look out for some additional interesting stuff in this genre, I would cherish your feedback on this one. Tell me what you think about the story, the images and the film, and if it all was aligned with what you expected to uncover in this subject field.<br><br>Stay tuned, since there's so much more in the queue nearly ready to share for next week!<br><br>Wrapping up here, if I may, be sure to note if you can jump on a call with me to record an interview on cargo webbing or strap polyester. I'd personally love your help in explaining these ideas with a few pictures of narrow fabric seat belt web.<br><br>PS - Listen, for those who got a lot out of the information I shared here today, will you help me please and be honest as to whether this really helped you?<br><br>Cheers!<br><br>Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0tag:blogger.com,1999:blog-2900816365528147436.post-39978283690629878622016-05-16T02:14:00.001-07:002016-05-16T02:14:44.026-07:00Who could say no to a quick peek at some amzing polyester info?A shout out to all my beloved readers and fans of <a href='http://fancy-pants-fashions.com/who-could-say-no-to-a-quick-peek-at-some-amzing-polyester-info-2/'>1.5 inch seat belt webbing - Read more</a>!<br><br>I, Roger Howard, have come with yet one other unusual write up that is going to leave you eagerly watching for more (if I may say so myself). While I spent most of my time this week dealing with our Industrial Shipping Demonstration 2016 webbing material exhibit, my extra hours after that were all invested in delving deep within the enigma and exhilaration of what is trending in the polyester manufacturer and webbing company categories. Incidentally, we're still collecting any and all pictures, videos, and technical designs (especially trucking tarps and cargo net webbing). Really eager to build a gallery that will leave our disciples spell bound and merrily clicking thru our gallery.<br><br>Oh, and if you have captivating tall tales and effective applications of narrow seat belt webbing, of course send me an email so we can talk about it.<br><br>Undoubtedly I could talk for hours on all these matters, but let's buckle up and get into the legitimate set of issues, okay? You are going to love this current post (just a little bawdy, but that's my style).<br><br>It's a fait accompli in the poly web material business sector that entreprenuers like us need to network and build out our relationships each and every week. I was at our territorial Chamber of Commerce meeting two days ago and met a new member recently relocated from Washington, DC. He's performed closely with poly web material matters in the Fiber Economics Bureau (FEB) for many years.<br><br>To be truthful, I must confess that I certainly never was aware of the Fiber Economics Bureau (humiliating, yes, I know). It seemed like a perfect opportunity to share an overview with you all (on the outside chance that a few of you may be curious about the "FEB" as was I :-).<br><br>Citation / Source: http://www.fibersource.com/feb/feb1.htm<br>The Exclusive Source of Information on Manufactured Fibers<br><br>Since 1935, the Fiber Economics Bureau (FEB) has been the ONLY source of direct statistics on the United States manufactured fiber industry and its products — acrylic, nylon, polyester, olefin, rayon, glass fiber, and others. Our long-established contacts with fiber producers and our confidential handling of proprietary data has earned us respect and cooperation from manufactured fiber producers around the world.<br><br>Our two monthly publications, the Fiber Organon and the Manufactured Fiber Review, present the latest information on industry trends in easy-to-read tables and charts. This data on production, shipments, capacities, stocks, imports-exports, mill use and other key industry statistics is made available 15 to 30 days after the close of each month.<br><br>Our premier data service is the Manufactured Fiber Handbook. It is distributed in page-by-page updates in a loose-leaf binder format designed for those who need the most timely, comprehensive, and in-depth data on the industry. The service includes details on primary and secondary end use shipments. Special data compilations are available for subscribers covering years prior to the start of new subscriptions.<br><br>Our annual World Directory of Manufactured Fiber Producers is the only directory with global coverage. It contains over 1,500 fiber producer listings in 72 countries. For each producer we provide details on addresses, telephone/fax numbers, plant locations, products produced, and trade names.<br><br>As you can imagine, there are VOLUMES more that could be shared about the FEB, but I'll cease fire there. You're 100% welcome to visit their site and dig deeper, becuase they have a huge library of truly fabulous info.<br><br>Since seatbelt webbing work is my professional life, I did a bit of a dig about on their website, and it made me remember a textbook that I loved from university days. So up I went into my attic storage, and pulled down all five cardboard crates full of notebooks, engineering posters, magazines, and books.<br><br><a href='http://fancy-pants-fashions.com/who-could-say-no-to-a-quick-peek-at-some-amzing-polyester-info-2/'>1.5 inch seat belt webbing - Read more</a><br><br>Watch this space my friends... because my assistant and I have more articles in the queue nearly ready to share in the days to come. Cheers!Anonymoushttp://www.blogger.com/profile/09527311279829850380noreply@blogger.com0