Roy W. Rice

Mechanical Properties of Ceramics and Composites (eBook, PDF)

Grain And Particle Effects

• Format: PDF

Produktbeschreibung

This book presents a comprehensive review, evaluation, and summary of the dependence of mechanical properties on grain and particle parameters of monolithic ceramics and ceramic composites. Emphasizing the critical link between fabrication and ceramic performance, the book covers the grain dependence of monolithic properties and the dependence of ceramic, composite properties on grain and particulate parameters. It includes theoretical and conceptual background, pertinent models, experimental results, a data review, discussion, and a summary or recommendations. Illustrations feature microstructural details while graphs plot data on material hardness, compressive strength, and other pivotal variables.

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Produktdetails

• Verlag: Taylor & Francis
• Seitenzahl: 712
• Erscheinungstermin: 18. April 2000
• Englisch
• ISBN-13: 9780203908471
• Artikelnr.: 38155647

Autorenporträt

Roy W. Rice is a consultant based in Alexandria, Virginia. The author of Porosity of Ceramics (Marcel Dekker, Inc.) and the author or coauthor of nearly 300 scientific publications, including journal papers, book chapters, and conference proceedings, as well as the holder of nearly 30 patents, Mr. Rice is a Fellow of the American Society for Metals and the American Ceramic Society. He received the B.S. (1957) and M.S. (1962) degrees in physics from the University of Washington, Seattle.

Inhaltsangabe

1. Introduction to Grain and Particle Effects on Ceramic and Ceramic
Composite Properties Part I: Grain Dependence of Monolithic Ceramic
Properties 2. Grain Dependence of Microcracking, Crack Propagation, and
Fracture Toughness at ~ 22°C 3. Grain Dependence of Ceramic Tensile
Strengths at ~ 22°C 4. Grain Dependence of Indentation Hardness at ~ 22°C
5. Grain Dependence of Compressive Strength, Wear, and Related Behavior at
~ 22°C 6. Grain Effects on Thermal Shock Resistance and Elevated
Temperature Crack Propagation, Toughness, and Tensile Strength 7. Grain
Dependence of Hardness, Compressive Strength, Wear, and Related Behavior at
Elevated Temperatures Part II: Dependence of Ceramic, Especially
Particulate, Composite Properties on Grain and Particle Parameters 8.
Particle (and Grain) Effects on Elastic Properties, Crack Propagation, and
Fracture Toughness of Ceramic Composites at ~ 22°C 9. Particle Dependence
of Tensile Strength of Ceramic Composites at ~ 22°C 10. Composite Particle
and Grain Effects on Hardness, Compressive Strength, Wear, and Related
Behavior at ~ 22°C 11. Particle and Grain Effects on Mechanical Properties
of Composites at Elevated Temperature 12. Summary and Perspective for the
Microstructural Dependence of Mechanical Properties of Dense Monolithic and
Composite Ceramics