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High Temperature Oxides, Magnesia, Alumina, Beryllia Ceramics: Fabrication, Characterization and Properties is the third part of a series of four books on high temperature oxides. This text is divided into five chapters that deal with the research and technical advances in selected refractory oxides, such as magnesia, alumina, and beryllium oxide. Chapter 1 discusses the preparation, characterization, thermal and mechanical properties, and application to the electrical and electronic fields of beryllium oxide. Chapter 2 examines the mechanical behavior of single crystals of magnesia, including its dislocation motion and interactions, and crack nucleation and growth. Chapter 3 describes the significance of diffusive and mechanical properties of sintered alumina and magnesia. Chapter 4 deals with the process mechanisms, control, and limitations of hot-pressing, with particular emphasis on the practical applications of hot-pressed refractory oxides. Chapter 5 explores the possible benefits of hot-working, operational processes involved in such working, and the applications of fabricated oxides. This book is of great value to engineers, materials scientists, and students with advanced materials science courses.
Refractory Materials, Volume 7: Transition Metal Carbides and Nitrides discusses the developments in transition metal carbide and nitride research. This volume is organized into nine chapters that emphasize the mechanical and superconducting properties of these compounds. The introductory chapters deal with the general properties, preparation techniques, characterization, crystal chemistry, phase relationships, and thermodynamics of transition metal carbides and nitrides. The following chapter highlights the mechanical properties of these compounds, such as elastic and plastic deformation, fracture, strengthening mechanisms, and hardness. The discussion then shifts to specific electrical and magnetic properties, including electrical resistivity, Hall coefficient, and magnetic susceptibility. A separate chapter is devoted to carbides and nitrides as superconductors. The concluding chapters explore certain theories that explain the mechanisms of band structure and bonding in carbides and nitrides. This volume is of great value to research workers in metallurgy, ceramics, physics, chemistry, and related fields, as well as to advanced students investigating problems concerning high temperature materials or interstitial compounds.