Interfaces in Materials: Proceedings of the Colloquium : Brussels, 9 December 1988A. Deruyttere, L. Froyen |
Contents
McLean The Science of Interfaces in Materials Engineering 527 | 5 |
J Van Landuyt The Direct Observation of Interfaces by Electron Microscopy 2964 | 29 |
Verpoest M Desaeger and J Ivens The Influence of the FibreMatrix Interface | 65 |
Copyright | |
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Common terms and phrases
adhesive alloys AMELINCKX aramid atomic axial ratios beam behaviour bond bound concept calculated carbon fibres carbon-epoxy ceramics cermets characteristics coefficient composite materials composites ref concentration factor crack creep crystal debonding defects defocus deformation diffraction diffusion ductility effect electron microscopy energy epoxy example experimental explosion welded failure strain fibre surface treatment fibre-matrix interface field properties fracture toughness function glass glass-ceramic grain boundary high resolution high temperature influence interface strength interlayer joining joints lattice layer loading matrix phase mechanical properties metal microstructure model concept modulus of elasticity normalized thermal ONDRACEK order bounds oxide parameters polymer porosity porous ceramics pull-out resin Schematic segregation shear strength shear stress shown in Figure silicon specimen spherical porosity spheroidal stiffness stress concentration structure superalloy techniques tensile strength thermal conductivity thermal expansion thermal shock thermal shock resistance transverse tensile treatment level twin volume fraction welding Young's modulus