Advanced Structural Ceramics
John Wiley & Sons, Sep 26, 2011 - Technology & Engineering - 475 pages
This book covers the area of advanced ceramic composites broadly, providing important introductory chapters to fundamentals, processing, and applications of advanced ceramic composites. Within each section, specific topics covered highlight the state of the art research within one of the above sections. The organization of the book is designed to provide easy understanding by students as well as professionals interested in advanced ceramic composites. The various sections discuss fundamentals of nature and characteristics of ceramics, processing of ceramics, processing and properties of toughened ceramics, high temperature ceramics, nanoceramics and nanoceramic composites, and bioceramics and biocomposites.
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addition alumina applications bacterial Balani Basu behavior bioceramic biocompatibility Biomaterials bond bone borides carbide cell cermets coatings composites crack tip crystal deformation densification density elastic modulus electron energy enhanced ferroelastic formation fracture toughness grain boundary grain growth grain size hardness heating high-temperature higher hot pressing HVOF hydroxyapatite implant increase indentation interface layer load matrix MAX phases mechanical properties metallic microcracking microstructure monolithic TiB2 MoSi2 mullite nanoceramics nanocomposites nanocrystalline nanostructured nitride observed oxidation oxidation resistance parameters particles plasma spraying pores pressure pressureless sintering processing reaction reinforcement reported residual stress S-SiAlON samples Schematic shown in Figure sinter-additive sintering temperature spark plasma sintering structural ceramics substrate surface synthesis techniques tetragonal tetragonal zirconia thermal spraying Ti3SiC2 TiB2 TiB2-based TiO2 tion TiSi2 transformation toughening tribological Vickers wear resistance Y-TZP yttria yttria content zirconia ZrB2 ZrO2