Plastics :Microstructure and Engineering Applications ( 3 )

Publication subTitle :Microstructure and Engineering Applications

Publication series :3

Author: Jenkins   Mike;Mills   Nigel  

Publisher: Elsevier Science‎

Publication year: 2005

E-ISBN: 9780080497747

P-ISBN(Paperback): 9780750651486

P-ISBN(Hardback):  9780750651486

Subject: TB3 Engineering Materials;TS1 the textile industry, dyeing industry;TS94 in the clothing industry, footwear industry

Language: ENG

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Description

Now in its Third Edition, Plastics is the key text for senior students studying the science and engineering of plastic materials. Starting from microstructure and physical properties, the book covers the mechanical, chemical and electrical properties of plastic materials, and also deals in detail with wider plastics issues that today’s engineers and materials scientists need such as manufacturing processes and the design of plastic products.

The new edition has been updated to reflect changes in polymer technology and the plastics industry, and the increased knowledge of the mechanical properties of plastics. A new first chapter introduces plastics properties through practical exercises, to help students to see the relevance of more academic chapters. Computer modeling has revealed the mechanics of many types of composites, so the emphasis of chapter 4 has shifted to modeling. Applications, product design and process technology have moved on; consequently the case studies in chapter 14 were updated. A new chapter 15 introduces sport and biomaterials case studies, since increasing numbers of students are enrolled on courses with these emphases. The material has been thoroughly updated, and the principles of polymer structure-property relationships set out more clearly.

  • Meets latest undergraduate needs for studying polymer properties
  • Expended coverage of materials selection and shape selection
  • New teaching case studies plus new material

Chapter

Front Cover

pp.:  1 – 4

Plastics Microstructure and Applications

pp.:  4 – 5

Copyright Page

pp.:  5 – 6

Contents

pp.:  6 – 9

Preface

pp.:  9 – 12

Chapter 1. Introduction to plastics

pp.:  12 – 32

Chapter 2. Molecular structures and polymer manufacture

pp.:  32 – 66

Chapter 3. Microstructure

pp.:  66 – 106

Chapter 4. Polymeric composites

pp.:  106 – 144

Chapter 5. Processing

pp.:  144 – 186

Chapter 6. Effects of melt processing

pp.:  186 – 214

Chapter 7. Viscoelastic behaviour

pp.:  214 – 240

Chapter 8. Yielding

pp.:  240 – 268

Chapter 9. Fracture

pp.:  268 – 302

Chapter 10. Degradation and environmental effects

pp.:  302 – 332

Chapter 11. Transport properties

pp.:  332 – 362

Chapter 12. Electrical properties

pp.:  362 – 388

Chapter 13. Design: Material and shape selection

pp.:  388 – 414

Chapter 14. Engineering case studies

pp.:  414 – 448

Chapter 15. Sport and biomaterials case studies

pp.:  448 – 478

Appendix A. Diffusion of heat or impurities

pp.:  478 – 488

Appendix B. Polymer melt flow analysis

pp.:  488 – 494

Appendix C. Mechanics concepts

pp.:  494 – 504

Appendix D. Questions

pp.:  504 – 514

Appendix E. Solutions of problems in chapter 14

pp.:  514 – 518

Further Reading

pp.:  518 – 524

Index

pp.:  524 – 530

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