Impact Behaviour of Fibre-Reinforced Composite Materials and Structures
Author: S. R. Reid | Size: 4.5 MB | Format: PDF | Publisher: CRC | Year: 2000 | pages: 370 | ISBN: 084930847X
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Features
Discusses CFRP laminate plates, and GFRP plates, composite sandwich panels
Addresses both high and low velocity impacts
Examines impact stress analysis of composite plates and tubes
Explores damage resistance and damage tolerance
Summary
Much of the early, pioneering work on the properties of composites under impact is still conceptually relevant, yet the results of many such analyses are outdated. The accuracy of these results depend specifically on the materials used (fibre, resin), interface, and method of fabrication. Development of new materials, cost effective design, and analysis and prediction of structural behaviour have all established a need for timely, wide ranging research on impact behaviour.
Impact Behaviour of Fibre-Reinforced Composite Materials and Structures brings together - for the first time - state-of-the-art research from the most recent works of leading, international experts. An important new study, this book extensively investigates impact response, damage tolerance, and failure of fibre-reinforced composite materials and structure, from a number of expert viewpoints.
This book explores the nature of modern polymer composites based on glass, carbon, aramid, ceramic and polymer fibres in a polymer matrix, and details various ways of analysing the impact process. Impact Behaviour of Fibre-Reinforced Composite Materials and Structures will prove itself a valuable tool for research and development engineers, structural engineers, materials scientists, designers, and students and researchers of related disciplines.
An overview of the impact behaviour of fibre-reinforced resin composites. Recent developments in impact damage assessment of fibre composites, J.K. Kim, Hong Kong University of Science and Technology. Modelling impact of composite structures using small specimens, C. Ruiz and J. Harding, University of Oxford. Impact damage-tolerant composite structure design, R.L. Sierakowski, Ohio State University, USA. Damage tolerance of thick woven roving CFRP plates subjected to low velocity impact, G. Zhou and L.G. Greaves, Loughborough University, U.K. Impact stress analysis of composite plates and tubes, S.R. Swanson, University of Utah, USA. Impact behaviour and analysis of CFRP laminated plates, E. Wu and Dr. Tsai, National Taiwan University, Taiwan. Response of GRP composite sandwich panels to impact and blast loading, S.R. Reid and H.M. Wen, UMIST, Manchester, UK. High velocity impact damage to polymer matrix composites, R.C. Tennyson and Dr. Montagne, University of Toronto, Canada.
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