Hot Isostatic pressing : theory and applications : proceedings of the Third International Conference, Osaka, Japan, 10-14 June 1991

The HIP process was originally devised for diffusion bonding of nuclear fuel elements at Battelle Memorial Institute in the United States in the mid-1950s. This innovative technique has been a subject of global research and development, and was applied to the cemented carbide industry at the end of the 1960s by ASEAj Sandvik. Since then this process has been applied to many kinds of industrial materials, including tool steel, superalloys and electronic and ceramic materials. In very recent years, HIPing technology has been applied even to R& D of high temperature superconducting materials and of a composite process with self- combustion reaction. On this occasion we should recognize that the 3rd HIP Conference was held in the midst of such progress of HIP technology, and that it was the first international conference which was held in Asia in the field of HIP and CIP technologies. The conference was very successful, with about 250 participants from 13 countries, including Japan. About 90 presentations, including nine invited lecturers, 44 oral and 35 poster presentations, were offered, and all contributions were at a high level and contained valuable results which had been attained in recent years.

1. Plenary Lecture.- Future Prospects for Hot Isostatic Pressing.- 2. Modeling And Theory.- Constitutive Equation for Compressible Materials and Its Application to Simulation of Powder Forming Processes.- HIP of Bi-modal Powder Mixtures: Modeling and Experiment.- The Effect of Non-uniform Densification During Hot Isostatic Pressing.- Finite Element Simulation of Nonuniform Shrinkage During Sintering of Ceramic Products.- Further Evidence for Proper Function of HIP Phase Diagram.- Simulation of Pseudo-Isostatic Pressing of Powder Compact.- 3. Advanced Ceramics.- Development of Gas Pressure Sintered Silicon Nitride Ceramics.- Mechanical Properties of Post-sintered Silicon Nitride Fabricated by HIPing.- Effects of HIP Conditions upon the Changes of Mechanical Properties with Sintered Silicon Nitride.- Hot Isostatic Pressing of Sintered Silicon Nitride.- HIPed Si3N4 for High Temperature Structural Applications at 1400 C.- Properties of Silicon Nitride-Silica Ceramics Sintered by HIP.- Mechanical Properties of Sialon Sintered at Different Pressures.- Preparation of High-density and High-strength Alumina by HIP.- Mechanical Properties and Microstructures of TiB2-ZrO2-SiC Fabricated by HIP.- HIP of ZnO.- Characteristics of High Density Non-Magnetic Ceramics by HIP.- Density and Refractive Index of Densified Silica Glass.- Microstructure Designing of Hydroxyapatite Ceramics by HIP Post-Sintering.- Direct Observation on the Pore Elimination During HIP.- Atmosphere Control in the HIP Treatment of Ceramics.- Gas-pressure Sintering Map for Silicon Nitride-based Materials.- Post-sintering Hot Isostatic Pressing of Silicon Nitride Based Ceramics.- High Strength HIPRBSN-An Optimization by Statistical Methods.- Optimized Fabrication of Silicon Nitride Ball Bearing Parts.- Prevention of the Color Change in HIP'ing of Zirconia Ceramics.- Optical Characteristics of PLZT Sintered by O2- and Ar-HIP.- Effect of Processing on the Micro-structure and Properties of Hot Isostatically Pressed Alumina Added with Rare-earth Elements.- Application of HIPing to Sintering Chromium Carbide.- 4. Metals and Alloys.- HIP Steel Components for the Manufacturing industry.- Densification Behaviour of Particle-Reinforced Superalloy Powder During Hot Isostatic Pressing.- HIP and Sinter-HIP of Ternary NiAl-X Alloys.- Fully Dense HIP Compaction of Mechanically Alloyed Amorphous Powders.- Design and Manufacture of Engineered Components Clad by HIP.- Application of P/M HSS Compound Parts to Steelworks.- Experimental Studies of the Equilibrium Between Zircaloy and Tritium During Hot Isostatic Pressing of Spent Fuel Hulls.- Properties of Hot Isostatically Pressed Tantalum.- The Development of the Composite Rolls for Hot Rolling Mills by HIPing.- Technology of HIPing Complex Shape Parts with Dual Chemical Composition and Properties from Metal Powders: Trends of its Development in the USSR.- Effect of Pressure on Diffusion of Element Chromium in Nickel During Hot Isostatic Pressing.- HIPing Effects for Steel's Mechanical Properties.- New Regularities of the Shape-changing of Hollow Parts During HIP.- Synthesis of TiAI Intermetallic Compounds by HIP-reaction Sintering.- Fracture Toughness of Alumina-Steel Composites Produced by Hot Isostatic Pressing.- 5. Bonding.- HIP-bonding of Advanced Structural Materials and Some Related Interfacial Phenomena.- Diffusion Bonding of Si3N4 to Metals by HIP Used for High Temperature Applications.- HIP Produced Bimetallic Cylinders for Fluoroplastic Injection Molding.- Manufacturing of HIP Composite Rollers Through the Rolling Process.- Diffusion Bonding of Silicon Nitride Engineering Ceramics to Metals Using Hot Isostatic Pressing.- Structure and Properties of the Bondage Area Between Steel and Superalloy.- 6. High Tc Superconductors.- High Oxygen Pressure (PO2?3000 bar, T?1200 C) Investigations in the Y2Ba4Cu6+nO14+n Family.- The Production and Properties of Highly Dense YBa2Cu4O8 Prepared by a Reaction HIP Sintering Process.- Effects of Oxygen Partial Pressure and Total Gas Pressure on Stability of YBCO Type Superconductors.- Superconductivity at 60 K in La2-xSrx CaCu2O6 (0 in Practice.- Mini-HIP Research in CISRI.- Recent Development of O2-HIP Equipment.- HIP Quenching.- Oxidation Resistant ODS-Superalloys for HIP-Equipments.- Numerical Simulation of Rapid-Cooling Hot Isostatic Pressing.- Equipment for New Technological Processes of HIP.- HIP Equipment for the Extreme Temperatures (3000 C).- Recent Trends in Cold Isostatic Pressing.- 9. New Application.- Progress in High Pressure Use in Food Industry.- Index of Contributors.