|1."High Temperature Materials in Gas Turbines" by P R Sahm and M O Speidel|
|2."High-Temperature Corrosion of Engineering Alloys" by G Y Lai|
“High-Temperature Corrosion of Engineering Alloys” Book Review: The book provides valuable insights on preventing high-temperature corrosion issues and is useful for both graduate students and researchers. Starting with an overview of various testing and evaluation methods for alloys, the book delves into the common causes of corrosion, including oxidation, carburization, and metal dusting. Additionally, the book covers corrosion resulting from nitridation, ash/salt deposition, and halogen sulfidation. The final chapters of the book address the topics of molten metal corrosion and molten salt corrosion, providing a comprehensive understanding of the topics.
|3."High Temperature Materials and Mechanisms" by Yoseph Bar-Cohen|
|4."Materials for High-Temperature Fuel Cells" by San Ping Jiang and Yushan Yan|
“Materials for High-Temperature Fuel Cells” Book Review: The book is aimed at graduate students, researchers, and scientists interested in high-temperature fuel cells and renewable energy methods. It covers important electrolytes and their properties, including ceramic or molten carbonate, as well as common electrodes such as ceramics and non-precious metals. Additionally, the book discusses the efficient and clean usage of sustainable and renewable energy, greenhouse gas mitigation, and other environmental technologies.
|5."Superalloys II: High-Temperature Materials for Aerospace and Industrial Power" by Chester T Sims and Norman S Stoloff|
“Superalloys II: High-Temperature Materials for Aerospace and Industrial Power” Book Review: This book is written for researchers and scientists involved in various domains associated with materials science and focuses on concepts of superalloys from an application standpoint. It emphasizes gas turbine design and superalloys, including the properties of various alloys such as cobalt-base, nickel-iron, and wrought alloys. The book also covers phase composition prediction strategies, powder metallurgy, and joining.
|6."Introduction to the High Temperature Oxidation of Metals" by Neil Birks and Gerald H Meier|
“Introduction to the High Temperature Oxidation of Metals” Book Review: This book provides material scientists and engineers with an in-depth understanding of various properties of metals and alloys at high temperatures. It begins with an introduction before diving into thermodynamics and other underlying principles of materials. The book emphasizes high-temperature corrosion in metals and alloys, oxidation processes in complex systems, and reactions in mixed environments. Additionally, the book discusses protective techniques such as coatings and atmospheric control.
|7."Dynamics of Magnetic Fluctuations in High-Temperature Superconductors (Nato Science Series B:)" by George Reiter and Peter Horsch|
“Dynamics of Magnetic Fluctuations in High-Temperature Superconductors (Nato Science Series)” Book Review: This is a comprehensive book that delves into the complex world of magnetic fluctuations in high-temperature superconductors. This book covers a wide range of topics including the theoretical framework for understanding magnetic fluctuations, experimental techniques for measuring them, and their impact on the properties of superconductors. The authors provide a detailed analysis of the dynamics of magnetic fluctuations and their role in the behavior of high-temperature superconductors. This book is an essential resource for researchers and scientists working in the field of superconductivity and condensed matter physics.
|8."High-Temperature Measurements of Materials (Advances in Materials Research)" by Hiroyuki Fukuyama and Yoshio Waseda|
“High-Temperature Measurements of Materials (Advances in Materials Research)” Book Review: The book is focused on the engineering of technologies that provide precise and accurate measurements of atomic structure, including density, surface tension, viscosity, heat capacity, thermal and mass diffusivity, thermal conductivity, emissivity, and electrical conductivity of high-temperature melts. It addresses recent developments and techniques in this field as well as the challenges faced by the industry in determining the precise thermophysical properties of high-temperature melts. The book also covers numerical simulations of material processes, such as semiconductor and optical crystal growth of the melt, process modeling, product quality, 3D process visualization, analysis of melt convection, temperature, and heat, among others.
We have compiled a list of the Best Reference Books on High Temperature Materials, which are used by students of top universities, and colleges. This will help you choose the right book depending on if you are a beginner or an expert. Here is the complete list of High Temperature Materials Books with their authors, publishers, and an unbiased review of them as well as links to the Amazon website to directly purchase them. If permissible, you can also download the free PDF books on High Temperature Materials below.
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