Modern ceramic engineering : properties, processing, and use in design

Ceramic materials have proven increasingly important in industry and in the fields of electronics, communications, optics, transportation, medicine, energy conversion and pollution control, aerospace, construction, and recreation. Professionals in these fields often require an improved understanding of the specific ceramics materials they are using. Modern Ceramic Engineering, Third Edition helps provide this by introducing the interrelationships between the structure, properties, processing, design concepts, and applications of advanced ceramics. This student-friendly textbook effectively links fundamentals and fabrication requirements to a wide range of interesting engineering application examples. A follow-up to our best-selling second edition, the new edition now includes the latest and most important technological advances in the field. The author emphasizes how ceramics differ from metals and organics and encourages the application of this knowledge for optimal materials selection and design. New topics discuss the definition of ceramics, the combinations of properties fulfilled by ceramics, the evolution of ceramics applications, and their importance in modern civilization. A new chapter provides a well-illustrated review of the latest applications using ceramics and discusses the design requirements that the ceramics must satisfy for each application. The book also updates its chapter on ceramic matrix composites and adds a new section on statistical process control to the chapter on quality assurance. Modern Ceramic Engineering, Third Edition offers a complete and authoritative introduction and reference to the definition, history, structure, processing, and design of ceramics for students and engineers using ceramics in a wide array of industries.

Preface Introduction CERAMICS AS ENGINEERING MATERIALS What is a Ceramic? History of Ceramics Applications: Engineering with Ceramics STRUCTURE AND PROPERTIES Atomic Bonding and Crystal Structure Crystal Chemistry and Specific Crystal Structures Phase Equilibria and Phase Equilibrium Diagrams Physical and Thermal Behavior Mechanical Behavior and Measurement Time, Temperature, and Environmental Effects on Properties Electrical Behavior Dielectric, Magnetic, and Optical Behavior PROCESSING OF CERAMICS Powder Processing Shape-forming Processes Densification Final Machining Quality Assurance DESIGN WITH CERAMICS Design Considerations Design Approaches Failure Analysis Toughening of Ceramics Appendix A: Glossary Appendix B: Effective Ionic Radii for Cations and Anions Appendix C: Periodic Table Index