Deformation Micro-Mechanisms in High-Temperature Super alloy - Kumar, Rajesh
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Deformation Micro-Mechanisms in High-Temperature Superalloy" by Rajesh Kumar is a comprehensive and authoritative book that delves into the intricate world of material deformation at high temperatures in superalloys. Superalloys are a class of advanced materials that exhibit exceptional mechanical strength, corrosion resistance, and thermal stability, making them ideal for high-temperature applications in aerospace, power generation, and other industries. This book provides a detailed exploration of the micro-mechanisms that govern the deformation behavior of superalloys under extreme…mehr

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Deformation Micro-Mechanisms in High-Temperature Superalloy" by Rajesh Kumar is a comprehensive and authoritative book that delves into the intricate world of material deformation at high temperatures in superalloys. Superalloys are a class of advanced materials that exhibit exceptional mechanical strength, corrosion resistance, and thermal stability, making them ideal for high-temperature applications in aerospace, power generation, and other industries. This book provides a detailed exploration of the micro-mechanisms that govern the deformation behavior of superalloys under extreme conditions, including creep, fatigue, and plasticity. With a focus on the underlying physical and mechanical processes, the author elucidates the deformation mechanisms at the microscopic level, including dislocation motion, grain boundary sliding, and phase transformation. The book also covers advanced experimental and computational techniques used for studying deformation mechanisms, such as in situ testing, electron microscopy, and atomistic simulations. Written by a renowned expert in the field, "Deformation Micro-Mechanisms in High-Temperature Superalloy" is a valuable resource for researchers, engineers, and students working in the areas of materials science, metallurgy, mechanical engineering, and aerospace engineering. It provides a comprehensive understanding of the complex deformation behavior of superalloys at high temperatures, which is crucial for the development of advanced materials and the design of high-performance components for extreme environments.