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Informationen zum Autor Andrew A. Wereszczak received his Ph.D. in Materials Science & Engineering from the University of Delaware in 1992, and while his research is varied, the study and interpretation of the relationship between mechanical properties and microstructure (of monolithic ceramics, structural materials, and electronic materials) are common denominators. Micromechanical characterization of structural and armor ceramics using instrumented static and dynamic indentation (e.g., Hertzian) with acoustic emission analysis, and adapting those measured performances and damage mechanism analyses to strength, rolling contact fatigue, wear, machining, and ballistic performances is a primary objective. Additionally, ceramic strength and fatigue testing, ceramic fractographical and flaw population analyses, Weibull analysis strength-size-scaling, and probabilistic life prediction and design of structural ceramic components constitutive another primary research objective. In support of all these efforts, both conventional and microstructural-level finite element stress analyses and microstructure characterization are performed. He is the author or co-author of over 100 technical publications and has given over 80 presentations, and is the co-developer of µ-FEA software. Klappentext Recent advances in coating development, processing, microstructure and property characterization, and life prediction are included in this book, which came from the proceedings of the 30th International Conference on Advanced Ceramics and Composites, January 22-27, 2006, Cocoa Beach, Florida. Organized and sponsored by The American Ceramic Society and The American Ceramic Society's Engineering Ceramics Division in conjunction with the Nuclear and Environmental Technology Division.. Integrated structural, environmental properties and functionality through advanced coating processing and structural design are emphasized in this book. Zusammenfassung Recent advances in coating development, processing, microstructure and property characterization, and life prediction are included in this book, which came from the proceedings of the 30th International Conference on Advanced Ceramics and Composites, January 22-27, 2006, Cocoa Beach, Florida. Organized and sponsored by The American Ceramic Society and The American Ceramic Society's Engineering Ceramics Division in conjunction with the Nuclear and Environmental Technology Division.. Integrated structural, environmental properties and functionality through advanced coating processing and structural design are emphasized in this book. Inhaltsverzeichnis Preface. Introduction. Advanced Thermal Barrier Coating Development and Testing. Relation of Thermal Conductivity with Process Induced Anisotropic Void Systems in EB-PVD PYSZ Thermal Barrier Coatings ( A. Flores Renteria, B. Saruhan, and J. llavsky). Segmentation Cracks in Plasma Sprayed Thin Thermal Barrier Coatings (Hongbo Guo, Hideyuki Murakami, and Seiji Kuroda). Design of Alternative Multilayer Thick Thermal Barrier Coatings (H. Samadi and T. W. Coyle). Creep Behaviour of Plasma Sprayed Thermal Barrier Coatings (Reza Soltani, Thomas W. Coyle, and Javad Mostaghimi). Corrosion Rig Testing of Thermal Barrier Coating Systems (Robert VaOen, Doris Sebold, Gerhard Pracht, and Detlev Stover). Thermal Properties of Nanoporous YSZ Coatings Fabricated by EB-PVD (Byung-Koog Jang, Norio Yamaguchi, and Hideaki Matsubara). Oxidation Behavior and Main Causes for Accelerated Oxidation in Plasma Sprayed Thermal Barrier Coatings (Hideyuki Arikawa, Yoshitaka Kojima, Mitsutoshi Okada, Takayuki Yoshioka, and Tohru Hisamatsu). Crack Growth and Delamination of Air Plasma-Sprayed Y203-ZrO, 8 1 TBC After Formation of TGO Layer (Makoto Hasegawa, Yu-Fu Liu, and Yutaka Kagawa). Lanthanum-Lithium Hexaaluminate-A New Material for Thermal Barrie...
