Fracture Mechanics of Fatigue of Structural Ceramics; I.W. Chen, et al. Fatigue Behavior of Sintered Al2O3 under Rotary Bending and Static Fatigue; H.N. Ko. Fatigue of Notched Alumina Specimens; D. Hertel, et al. Static and Cyclic Fatigue of Zirconia Materials Measured by Double Torsion; J. Chevalier, et al. The Fatigue Behavior of MgPSZ and ZTA Ceramics; M.M. Nagl, et al. The Influence of Processing Techniques on the Fatigue Properties of Yttria Stabilized Zirconia with Different Grain Sizes; R. Matt, G. Grathwohl. Fatigue Crack Initiation and Propagation in Ceramics; A. Ueno, H. Kishimoto. On Fatigue and Facture Behavior of SiAlloyed Pyrolytic Carbon; L. Ma, et al. An Analysis of Cyclic Fatigue Effects in Ceramic Matrix Composites; D. Koch, G. Grathwohl. Fatigue Life Predications of PZT Using Continuum Damage Mechanics and Finite Element Methods; T.J. Chuang, et al. Crack Growth in Ferroelectric Ceramics and Actuators under Mechanical and Electrical Loading; G.A. Schneider, et al. Effects of Residual Stress on Fracture Toughness and Subcritical Crack Growth of Indented Cracks in Various Glasses; M. Yoda, et al. Determination of Threshold Stress Intensity Factor for Subcritical Crack Growth in Ceramic Materials by Interrupted Static Fatigue Test; V.M. Sglavo, et al. 31 additional articles. Index.

Dissipative Processes Accompanying Fracture; J.T. Dickinson, et al. FractoEmission from Ceramics at Cryogenic Temperatures; S. Owaki, et al. The Influence of The Network of Microcracks upon the Crack Propagation Behavior Inside of Transparent Zirconia; K. Ahlborn, et al. Critical Stress of Microcracking in Alumina Evaluated by Acoustic Emission; S. Wakayama, H. Nishimura. Analysis of Precracking Parameters for Single-Edge-Precracked Beam Specimens; S.R. Choi, et al. Elevated-Temperature Fracture Resistances of Monolithic and Composite Ceramics Using Chevron-Notched Bend Tests; A. Ghosh, et al. Reliability of Ceramics Fracture Toughness Measurements by Indentation; S.N. Dub, A.L. Maistrenko. The Indentation Fracture Resistance of Self-Reinforced Mullites; T. Sakai, et al. Cleavage of Ceramic and Mineral Single Crystals; R.A. Schultz, R.C. Bradt. 32 additional articles. Index.

Fracture Mechanics and Mechanism of Ceramic Composites; T. Kishi. Effects of Residual Stress and Frictional Sliding on RCurve Behavior in FiberReinforced Ceramics; K. Sekine, Y. Kagawa. A Crack Growth Resistance Model for FiberReinforced Ceramic Materials; L. Zhou, et al. On the Size Effect in Fracture of CeramicCeramic Composite Materials; J. Llorca, M. Elices. Matrix Cracking and Fiber Bridging of Carbon Reinforced Carbon Matrix Composites; M. Sakai, T. Miyajima. Fiber Pullout and Fracture Energy of CFiber/CMatrix Composites; T. Miyajime, M. Sakai. The Crack Growth Resistance of SiCSiC Ceramic Composite Materials; M. Gomina, M.H. Rouillon. Fracture Toughness of Carbon Fiber Reinforced Ceramic Composites; K. Nakano, et al. RCurve Behavior of Ceramics; R.W. Steinbrech. Crack Face Bridging in Monolithic Spinel; J.C. Hay, K.W. White. 32 additional articles. Index.

This volume "Deformation of Ceramic Materials II" constitutes the proceedings of an international symposium held at The Pennsyl vania State University, University Park, PA on July 20, 21, and 22, 1983. It includes studies of semiconductors and minerals which are closely related to ceramic materials. The initial conference on this topic was held in 1974 at Penn State and the proceedings were published in the volume entitled "Deformation of Ceramic Materials." This conference emphasized the deformation behavior of crystals and po1ycrysta11ine and polyphase ceramics with internationally recognized authorities as keynote lecturers on the major subtopics. Several papers dealing with cavity nucleation and creep crack growth represent a major new research thrust in ceramics since the first conference. This collection of papers represents the state-of-the art of our understanding of the plastic deformation behavior of ceramics and the crystals of which they are composed. We are grateful for the suggestions of our International Advisory Committee .in recommending experts in their respective countries to participate. We are particularly grateful that the organizers of the previous Dislocation-Point Defect Interaction Workshops agreed to participate in the Penn State Symposium as an alternative at the suggestion of Prof. A. H. Heuer. We acknowledge the financial support of the National Science Foundation for this conference."