Multi-Scale Modelling of Composite Material Systems :The Art of Predictive Damage Modelling ( Woodhead Publishing Series in Composites Science and Engineering )

Publication subTitle :The Art of Predictive Damage Modelling

Publication series :Woodhead Publishing Series in Composites Science and Engineering

Author: Soutis   C;Beaumont   P W R  

Publisher: Elsevier Science‎

Publication year: 2005

E-ISBN: 9781845690847

P-ISBN(Paperback): 9781855739369

P-ISBN(Hardback):  9781855739369

Subject: TB3 Engineering Materials

Language: ENG

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Description

One of the most important and exciting areas of composites research is the development of modelling techniques to predict the response of composite materials to different types of stress. Predictive modelling provides the opportunity both to understand better how composites behave in different conditions and to develop materials with enhanced performance for particular industrial applications. Multi-scale modelling of composite material systems summarises the key research in this area and its implications for industry.

The book covers modelling approaches ranging from the micron to the metre in scale, and from the single fibre to complete composite structures. Individual chapters discuss a variety of material types from laminates and fibre-reinforced composites to monolithic and sandwich composites. They also analyse a range of types of stress and stress response from fracture and impact to wear and fatigue. Authors also discuss the strengths and weaknesses of particular models.

With its distinguished editors and international team of contributors, Multi-scale modelling of composite material systems is a standard reference for both academics and manufacturers in such areas as aerospace, automotive and civil engineering.

  • Extensive coverage of this important and exciting area of composites research
  • Understand how composites behave in different circumstances
  • Compiled by an expert panel of authors and editors

Chapter

Cover

pp.:  1 – 4

Multi-scale modelling of composite material systems: The art of predictive damage modelling

pp.:  4 – 5

Copyright

pp.:  5 – 6

Contents

pp.:  6 – 12

Contributor contact details

pp.:  12 – 16

Preface

pp.:  16 – 20

1 Molecular modelling of composite matrix properties

pp.:  20 – 52

2 Interfacial damage modelling of composites

pp.:  52 – 84

3 Multi-scale predictive modelling of cracking in laminate composites

pp.:  84 – 118

4 Modelling the strength of fibre-reinforced composites

pp.:  118 – 143

5 Cracking models

pp.:  143 – 215

6 Multi-scale modelling of cracking in cross-ply laminates

pp.:  215 – 236

7 Modelling damage in laminate composites

pp.:  236 – 278

8 Progressive multi-scale modelling of composite laminates

pp.:  278 – 297

9 Predicting fracture of laminated composites

pp.:  297 – 322

10 Modelling the compressive response behaviour of monolithic and sandwich composite structures

pp.:  322 – 338

11 Modelling composite reinforcement by stitching and z-pinning

pp.:  338 – 375

12 Finite element modelling of brittle matrix composites

pp.:  375 – 393

13 Wear modelling of polymer composites

pp.:  393 – 420

14 Modelling impact damage in composite structural elements

pp.:  420 – 449

15 Modelling structural damage using elastic wave-based techniques

pp.:  449 – 488

16 Modelling the fatigue behaviour of bonded joints in composite materials

pp.:  488 – 514

Index

pp.:  514 – 526

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