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The investigation of multi-component complex systems composed of oxides, nitrides, and carbides has intensified in the last few years. Phase Diagrams in Advanced Ceramics reviews some of the recent advances inthe understanding of these composite systems, providing insight into how phase diagrams can be utilized in the fabrication of whiskers and ceramic-matrix whisker-reinforced ceramics. Phase relations and sintering information is reviewed for transparent polycrystalline oxides. Phase diagrams are discussed to predict alkali oxide corrosion of alumino-silicate references. - Understanding the development, manufacture, and use of complex, multi-component ceramic materials composed of silicon...
High temperature phase equilibria studies play an increasingly important role in materials science and engineering. It is especially significant in the research into the properties of the material and the ways in which they can be improved. This is achieved by observing equilibrium and by examining the phase relationships at high temperature. The study of high temperature phase diagrams of nonmetallic systems began in the early 1900s when silica and mineral systems containing silica were focussed upon. Since then technical ceramics emerged and more emphasis has been placed on high temperature studies. This book covers many aspects, from the fundamentals of phase diagrams, experimental and computational methods, applications, to the results of research. It provides an excellent source of information for a range of scientists such as materials scientists, especially ceramicists, metallurgists, solid-state physicists and chemists, and mineralogists.
Materials Science in Energy Technology presents the fundamental properties of materials that are essential to a particular energy application. This book discusses the areas of research required for the development of other materials for that application. Organized into 10 chapters, this book starts with an overview of the methods of producing energy, which are arranged in approximate chronological order as to when the methods were or will be first utilized. This text then reviews the wide scope of materials associated with nuclear fission technology. Other chapters consider the major materials requirements and problems for ceramics in magnetohydrodynamic (MHD) power generators. This book discusses as well the three processes that are involved in the photovoltaic effect, including light absorption, charge separation in the photovoltaic cell, and migration of charge carriers. The final chapter deals with the physical properties of superconductors. This book is a valuable resource for materials scientists, metallurgists, physicists, and chemists.
Systematic Materials Analysis, Volume IV presents refined instrumental methods available for materials analysis, which involves the complete characterization of a material, including structural and textural analyses in addition to chemical analysis. This volume is composed of 11 chapters. Each chapter on specific instruments outlines the theories of operation and describes their capability for qualitative and quantitative measurements of chemical composition, structure, and texture. The sensitivity and selectivity of each method are emphasized. The specific techniques and instruments covered in this book include the atomic-absorption and atomic-fluorescence flame photometry, ion microprobe, mass spectrometry, neutron diffractometry, polarimetry, polarography, dynamic thermal analysis, and transmission electron microscopy. This book is intended primarily to materials analysts, engineers, researchers, and undergraduate and graduate level students.
This new edition of Robert G. Mortimer's Physical Chemistry has been thoroughly revised for use in a full year course in modern physical chemistry. In this edition, Mortimer has included recent developments in the theories of chemical reaction kinetics and molecular quantum mechanics, as well as in the experimental study of extremely rapid chemical reactions. While Mortimer has made substantial improvements in the selection and updating of topics, he has retained the clarity of presentation, the integration of description and theory, and the level of rigor that made the first edition so successful.* Emphasizes clarity; every aspect of the first edition has been examined and revised as needed to make the principles and applications of physical chemistry as clear as possible. * Proceeds from fundamental principles or postulates and shows how the consequencesof these principles and postulates apply to the chemical and physical phenomena being studied.* Encourages the student not only to knowthe applications in physical chemistry but to understand where they come from.* Treats all topics relevant to undergraduate physical chemistry.