2nd edition. — University of Stuttgart, 2021. — 506 p. — ASIN B07PYWT44W.
Engineering fibre reinforced polymer FRP composites offer many advantages compared to isotropic metals, but their versatility also creates difficulties for their effective manufacture and design. Selection of the right fibre-matrix combination for a specific application must consider many factors, not least cost, performance, recyclability and suitability to environmental conditions. Closely linked to these will be selection of the most suitable manufacturing route with further choices regarding desired production volume, cycle time and final part quality. This book in not primarily intended as a design guide to address these requirements, but rather to introduce the reader to modern analysis methods that undertake both process and mechanical analysis of advanced composites for composites design. Chapters are structured to introduce key topics, including an overview on composites and their analysis, micromechanics, macromechanical laminate analysis and two chapters dedicated to finite element FE theory with a focus on composites. This provides the background for chapters dedicated to process modelling of draping, forming and infusion, followed by mechanical modelling of failure, impact and crash. Throughout the book necessary theory, experimental methods, constitutive modelling and numerical methods are elaborated. With applications and worked examples included to help exemplify the theory and numerical methods applied. The book is intended for graduate and post graduate students requiring a broad understanding of modern numerical methods for engineering FRP composites analysis. It will also provide a comprehensive overview for researchers and practicing engineers in this field.
A compendium to this book has been published (Part 2. Analysis Tutorials) which contains a set of eleven structured tutorials covering mechanical, micromechanics, textile mechanics, laminate, drape and infusion analysis.
The author Anthony Pickett undertook postgraduate research in FRP composites at the University of Surrey and RAE Farnborough, followed by nearly twenty-five years industrial work as scientific director with ESI GmbH developing and applying FE codes for process and mechanical simulation of metal and composite structures. From 2002 he was a professor in the composites group at Cranfield University and since 2007 has continued research and teaching of advanced composites at IFB (Institute of Aircraft Design) at the University of Stuttgart. The contents of this book are largely based on teaching material presented to master’s level students over the past fifteen years. He is a fellow of the Institute of Mechanical Engineers and the Institute of Materials, and a chartered engineer in the UK, with many publications and several book chapters related to process, impact and crash modelling of composites.