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Synthetic fibres: Nylon, polyester, acrylic, polyolefin PDF

309 Pages·2004·3.55 MB·English
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Synthetic fibres: nylon, polyester, acrylic, polyolefin Other titles in the Woodhead Publishing Limited series on fibres, published in association with The Textile Institute: Series Editor: Professor J. E. McIntyre Bast and other plant fibres High-performance fibres Regenerated cellulose fibres Silk, mohair, cashmere and other luxury fibres Smart fibres, fabrics and clothing Synthetic fibres: nylon, polyester, acrylic, polyolefin Edited by J. E. McIntyre CRC Press Boca Raton Boston New York Washington, DC Cambridge England Published by Woodhead Publishing Limited in association with The Textile Institute Woodhead Publishing Ltd Abington Hall, Abington Cambridge CB1 6AH, England www.woodhead-publishing.com Published in North America by CRC Press LLC 2000 Corporate Blvd, NW Boca Raton FL 33431, USA First published 2005, Woodhead Publishing Ltd and CRC Press LLC © 2005, Woodhead Publishing Ltd The authors have asserted their moral rights. This book contains information obtained from authentic and highly regarded sources. Reprinted material is quoted with permission, and sources are indicated. Reasonable efforts have been made to publish reliable data and information, but the authors and the publishers cannot assume responsibility for the validity of all materials. Neither the authors nor the publishers, nor anyone else associated with this publication, shall be liable for any loss, damage or liability directly or indirectly caused or alleged to be caused by this book. Neither this book nor any part may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, microfilming and recording, or by any information storage or retrieval system, without permission in writing from the publishers. The consent of Woodhead Publishing and CRC Press does not extend to copying for general distribution, for promotion, for creating new works, or for resale. Specific permission must be obtained in writing from Woodhead Publishing or CRC Press for such copying. Trademark notice: Product or corporate names may be trademarks or registered trade- marks, and are used only for identification and explanation, without intent to infringe. British Library Cataloguing in Publication Data A catalogue record for this book is available from the British Library. Library of Congress Cataloging in Publication Data A catalog record for this book is available from the Library of Congress. Woodhead Publishing ISBN 1 85573 588 1 CRC Press ISBN 0-8493-2592-7 CRC Press order number: WP2592 The publisher’s policy is to use permanent paper from mills that operate a sustainable forestry policy, and which have been manufactured from pulp which is processed using acid-free and elementary chlorine-free practices. Furthermore, the publisher ensures that the text paper and cover board used have met acceptable environmental accreditation standards. Typeset by Ann Buchan (Typesetters), Shepperton, Middlesex, England Printed by TJ International, Padstow, Cornwall, England Contents Contributor contact details viii 1 Historical background 1 J. E. McINTYRE, formerly University of Leeds, UK 1.1 Introduction 1 1.2 Fibres from chain-growth polymers 2 1.3 Fibres from step-growth polymers 8 1.4 Elastomeric fibres 12 1.5 Brief overview 14 1.6 References 15 2 Nylon fibres 20 A. F. RICHARDS, formerly Bolton Institute, UK 2.1 Introduction 20 2.2 Chemical structures 21 2.3 Polymerisation 23 2.4 Fibre production 33 2.5 Fibre properties 44 2.6 Fibre modification 72 2.7 Coloration 80 2.8 Applications 84 2.9 Recycling 87 2.10 References 88 v vi Contents 3 Polyester fibres 95 A. J. EAST, Brooklake Polymers, USA 3.1 Introduction 95 3.2 Brief history of polyesters 96 3.3 PET polymer: raw materials, intermediates, polymer 100 synthesis and polymer properties 3.4 Cyclohexanedimethanol polyesters 111 3.5 Poly(butylene terephthalate) (PBT) 115 3.6 Poly(trimethylene terephthalate) (PTT or PPT) 117 3.7 Biodegradable polyester fibres 123 3.8 Melt-spinning polyester fibres and associated processing 129 3.9 Modification of polyester fibres 139 3.10 Dyeing polyesters 146 3.11 Bicomponent fibres and microfibres 151 3.12 World markets, future trends and conclusion 155 3.13 Acknowledgments 157 3.14 References 157 4 Acrylic fibres 167 R. COX, Acordis Acrylic Fibres, UK 4.1 Introduction 167 4.2 Chemical intermediates 168 4.3 Polymerisation techniques 171 4.4 Fibre production techniques 182 4.5 Physical properties and structure of fibres 199 4.6 Chemical variants 210 4.7 Fibre variants 222 4.8 End-use survey 225 4.9 References 231 5 Polyolefin fibres 235 R. R. MATHER, Heriot-Watt University, UK 5.1 Introduction 235 5.2 Molecular configuration 238 5.3 Production of polyolefins 238 5.4 Polyolefin structures 244 5.5 Fibre production 247 5.6 Additives 253 5.7 Coloration of polyolefin fibres 260 Contents vii 5.8 Properties of PP and PE fibres 261 5.9 Hard-elastic fibres 262 5.10 Processing–structure–property relationships 263 5.11 Applications 273 5.12 Recycling 278 5.13 Future trends 279 5.14 Conclusion 286 5.15 Acknowledgment 287 5.16 References 287 Index 293 Contributor contact details Chapter 1 Chapter 4 Professor J. E. McIntyre Mr R. Cox 3 Rossett Gardens Acordis Acrylic Fibres Harrogate HG2 9PP Acordis UK Ltd UK Westcroft Saint Street Email: [email protected] Bradford BD7 4AD Chapter 2 UK Dr A. F. Richards Tel: 01274 571 151 Greenacre Fax: 01274 525 350 Ribchester Road Email: [email protected] Clayton Le Dale Blackburn BB1 9EE UK Chapter 5 Tel: (0)1254 249 694 Dr R. R. Mather Email: [email protected] School of Textiles Heriot-Watt University Chapter 3 Netherdale Dr A. J. East Galashiels TD1 3HF 62 Niles Avenue UK Madison NJ 07940 2344 Email: [email protected] USA Email: [email protected] viii 1 Historical background J. E. McINTYRE Formerly University of Leeds, UK 1.1 Introduction This chapter reviews the early development of synthetic fibres, which are defined1 by the International Organization for Standardization (ISO) as fibres manufactured from polymers built up from chemical elements or compounds, in contrast to fibres made from naturally occurring fibre-forming polymers. The definition excludes fibres made from regenerated cellulose, such as viscose rayon and cuprammonium rayon, and from cellulose esters, such as secondary cellulose acetate and cellulose triacetate. These fibres manufactured from cellulose became established commercially many years before the first synthetic fibres were discovered and developed. There was therefore quite a considerable amount of information already available to the developers of fibres from new polymeric materials about the production of fibres from solutions of high polymers by extrusion into non-solvents, i.e. by wet-spinning, and into evaporative atmos- pheres, i.e. by dry-spinning, and also about filament orientation by stretching and about subsequent downstream handling. There was, however, only a very limited understanding of the nature of polymers and of their macromolecular structure and synthesis. A major step forward in developing this understanding was taken in the 1920s, when it was convincingly demonstrated, notably by Hermann Staudinger at the Technische Hochschule in Zürich, that polymers were not colloidal assemblies of molecules of low molecular weight, as many believed, but consisted of molecules of high molecular weight. Staudinger was awarded the Nobel Prize for chemistry in 1953 for his work on this subject. A major factor in convincing the chemical community was work on polymer synthesis directed by W. H. Carothers in the early 1930s at the Experimental Station of the DuPont company in Wilmington, Delaware. The terms addition polymerisation and condensation polymerisation were introduced by Carothers.2 Addition polymerisation was defined as the chemical union of many similar molecules without the elimination of simpler molecules, and condensation polymerisation as the chemical union of many similar molecules 1

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Synthetic fibers account for about half of all fiber usage, with applications in every field of fiber and textile technology. Although many classes of fiber based on synthetic polymers have been evaluated as potentially valuable commercial products, four of them - nylon, polyester, acrylic and polyo
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