An Introduction to Composite MaterialsCambridge University Press, 11 Jul 2019 - 345 halaman This fully expanded and updated edition provides both scientists and engineers with all the information they need to understand composite materials, covering their underlying science and technological usage. It includes four completely new chapters on surface coatings, highly porous materials, bio-composites and nano-composites, as well as thoroughly revised chapters on fibres and matrices, the design, fabrication and production of composites, mechanical and thermal properties, and industry applications. Extensively expanded referencing engages readers with the latest research and industrial developments in the field, and increased coverage of essential background science makes this a valuable self-contained text. A comprehensive set of homework questions, with model answers available online, explains how calculations associated with the properties of composite materials should be tackled, and educational software accompanying the book is available online. An invaluable text for final-year undergraduates in materials science and engineering, and graduate students and researchers in academia and industry. |
Isi
General Introduction | 1 |
Fibres Matrices and Their Architecture in Composites | 9 |
Elastic Deformation of Long Fibre Composites | 31 |
Tensor Analysis of Anisotropic Materials and the Elastic Deformation | 43 |
Elastic Deformation of Laminates | 67 |
Stresses and Strains in Short Fibre and Particulate Composites | 77 |
The Interface Region | 97 |
StressBased Treatment of the Strength of Composites | 114 |
Surface Coatings as Composite Systems | 220 |
Highly Porous Materials as Composite Systems | 238 |
BioComposites and Recycling | 268 |
Scale Effects and NanoComposites | 286 |
Fabrication of Composites | 301 |
Applications of Composites | 319 |
Questions | 333 |
| 342 | |
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Istilah dan frasa umum
aligned alloy anisotropic applied load applied stress aspect ratio axial behaviour bonding carbon fibres carbon nanotubes cell ceramic cermets coatings commonly components composite materials Composites Science compressive constituents creep curvature debonding diameter direction distribution effect Engineering equation Eshelby example expression failure fiber fibre axis fibre network materials fibre volume fraction foams fracture energy glass fibres graphene interfacial isotropic Journal of Materials laminate loading angle long fibre composites Materials Science mechanical properties metal matrix composites metallic foams micrograph microstructure misfit strain MMCs normal obtained occur particles plane plastic deformation plies plot Poisson ratio polymer porosity predicted produced pull-out reinforcement relatively resin Schematic Section shear lag shear stress short fibre shown in Fig stiffness structure surface temperature tend tensile stress tensor thermal conductivity thermal expansion thermoplastic transverse TW Clyne uniaxial values yield stress Young's modulus