-
 ![]()
Magnetic Ceramics
The purpose of the book is to provide an up-to-date overview of the relevant aspects of ferrites, which cover a wide range of magnetic properties and applications such as high-frequency transformer cores, permanent magnet cements, microwave telecommunication devices, magnetic recording media and heads. The author takes an interdisciplinary approach to describe the structure, preparation techniques, magnetic properties, and applications of iron-based oxides; metallic magnetic materials are also covered in depth.
-
 ![]()
Mechanical Properties of Ceramics
A textbook for a junior or senior class for students in ceramics, materials science, or related fields. Assumes no prior knowledge of mechanics, but an undergraduate-level exposure to physics and calculus. Also contains more advanced material suitable for a graduate course and for reference by practicing materials scientists and engineers who are not specialists in ceramics. Explains how to account for all the variable when designing and producing microstructure or ceramic devices.
-
 ![]()
Metal and Ceramic Based Composites
The main aim of this book is to help engineers and others understand what kind of structure provides the required properties, and how to obtain the correct composite structure.
-
 ![]()
Phase Diagrams and Ceramic Processes
Understanding ceramic processes requires simultaneous consideration of the thermodynamics of chemical equilibrium and the kinetic limitations on the attainment of equilibrium imposed through finite atomic mobilities and the probabilistic nature of complex phase formation. The equilibrium phase diagram, its thermodynamic basis and interpretation are considered here as effecting processing decisions in raw materials selection and processes before firing, as well as in optimization of process tempertaures for reaction and sintering for the development of unique microstructures.
-
 ![]()
Physical Ceramics: Principles for Ceramic Science and Engineering
A text for a junior or senior course for students of materials science and engineering with a background in inorganic chemistry, chemical thermodynamics, and basic crystallography. In addition to providing information about ceramics, introduces the concepts and terminology necessary for further study. Includes a 3.5" disk for DOS.
-
 ![]()
Sintered Metallic and Ceramic Materials
Sintering is the process of heating and compacting a powdered material at a temperature below its melting point in order to weld the particles together into a single rigid shape. This important resource provides materials scientists with the information they need to sinter metal alloys and ceramics, including discussions of process and raw materials.
-
 ![]()
Ultrastructure Processing of Advanced Materials
Look here for the latest developments in the glass, ceramic and composite engineering field that have yielded the best material with better physical properties, longer life and lower costs. Included are processing techniques which must be understood to assure proper production results, including new developments in the chemistry and preproduction processing methods, advances in sol-gel manufacturing and optical properties, and recent breakthroughs in composite materials.
|
