Fracture Mechanics of Ceramics

of Volume 2.- IV. Microstructural Effects.- Effects of Microstructure on the Mechanical Properties of Ceramics.- Fracture Mechanics of Concrete.- Fracture of Directionally Solidified CaO•ZrO2-ZrO2 Eutectic.- Fracture Energy and Thermal Shock Resistance of Mica Glass-Ceramics.- Fracture of Polycrystalline Graphite.- Fracture of Wüstite and Wüstite-Fe3O4-5v/o Fe Versus Grain Size.- Microstructural Development and Fracture Toughness of a Calcia Partially Stabilized Zirconia.- Determination of KIc-Factors with Diamond-Saw-Cuts in Ceramic Materials.- Microstructural Considerations for the Application of Fracture Mechanics Techniques.- Strength and Microstructure of Dense, Hot-Pressed Silicon Carbide.- Criteria for Crack Extension and Arrest in Residual, Localized Stress Fields Associated with Second Phase Particles.- V. Subcritical Crack Growth.- Subcritical Crack Growth in Ceramics.- The Propagation of Cracks by Diffusion.- Slow Crack Growth in Polycrystalline Ceramics.- Precipitation Strengthening in Non-Stoichiometric Mg-Al Spinel.- Fatigue Fracture of an Alumina Ceramic at Several Temperatures.- Stress-Corrosion Cracking in Polycrystalline MgO.- Effect of Polymeric Coatings on Strength of Soda-Lime Glass.- The Griffith Criterion and the Reversible and Irreversible Fracture of Brittle Materials.- VI. Engineering, Scientific, and Design Applications.- Thermal Shock Resistance of Ceramic Materials.- Crack Propagation in a Thermally Stressed Ceramic Reactor Fuel.- Determination of Fracture Toughness Parameters for Tungsten Carbide-Cobalt Alloys.- Fracture Resistance of Metal-Infiltrated Porous Ceramics.- Fracture and Strain Energy Release in Prestressed Glass and Glass-Ceramics.- A Fracture Mechanics Study of the Skylab Windows.- The Applicability of Fracture MechanicsTechnology to Porcelain.- Application of Fracture Mechanics to Graphite Under Complex Stress Conditions.- Engineering Design and the Probability of Fatigue Failure of Ceramic Material.- Fracture Mechanics of Binary Sodium Silicate Glasses.- Failure Prediction in Brittle Materials Using Fracture Mechanics and Acoustic Emission.- Contributors.