An Introduction to Composite MaterialsCambridge University Press, 13 Ağu 1996 This edition has been greatly enlarged and updated to provide both scientists and engineers with a clear and comprehensive understanding of composite materials. In describing both theoretical and practical aspects of their production, properties and usage, the book crosses the borders of many disciplines. Topics covered include: fibres, matrices, laminates and interfaces; elastic deformation, stress and strain, strength, fatigue crack propagation and creep resistance; toughness and thermal properties; fatigue and deterioration under environmental conditions; fabrication and applications. Coverage has been increased to include polymeric, metallic and ceramic matrices and reinforcement in the form of long fibres, short fibres and particles. Designed primarily as a teaching text for final-year undergraduates in materials science and engineering, this book will also interest undergraduates and postgraduates in chemistry, physics, and mechanical engineering. In addition, it will be an excellent source book for academic and technological researchers on materials. |
İçindekiler
From the preface to First Edition | |
Fibres andmatrices 2 1 Reinforcements 2 1 1 Carbon fibres 2 1 2 Glass fibres | 5-2 |
Fibre | 5-4 |
Thermal behaviour of composites | 10-1 |
Fabrication | 10-38 |
5 | 10-60 |
Fibre architecture | 10-71 |
Appendix Nomenclature | 10-86 |
Elastic deformation of longfibre composites | 4 |
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
aligned aluminium andthe angleply applied load applied stress aspect ratio axial stress behaviour bythe canbe carbon fibres ceramic Clyne component composite materials compressive constituents creep crossply laminate debonding deformation distribution effect elastic equation Eshelby example experimental data fabrication failure stress fatigue fibre aspect ratio fibre axis fibre composite fibre direction fibre volume fraction fibre/matrix fracture energy glass fibre heat hightemperature illustrated inFig injection moulding interfacial bond interfacial shear interlaminar inthe Kevlar laminate layers loading angle longfibre composites matrix stress mechanical metal matrix composites micrograph microstructural MMCs moulding obtained occurs ofthe orientation particles plastic plies plots polymer predicted prepreg produced properties pullout reaction reinforced resin resistance Schematic shear lag shear modulus shear stress shortfibre shown in Fig specimen stiffness strain stress–strain surface temperature tensile stress tension tensor thefibre thematrix thermal conductivity thermal cycling thermal expansion thermoplastics thestress titanium tothe toughness transverse unidirectional Young’s modulus