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Sintering Key Papers

The 4th International Symposium on the Science and Technology of Sintering was held on 4-6 November 1987 in Tokyo. Among the many technical sessions was one entitled 'Session for Sintering-Case Study'. Over 200 participants heard these invited talks. Although some papers were over 20 years...

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Bibliographic Details
Other Authors: Somiya, S. (Editor), Moriyoshi, Y. (Editor)
Format: eBook
Language:English
Published: Dordrecht Springer Netherlands 1990, 1990
Edition:1st ed. 1990
Subjects:
Metals And Alloys
Metals
Materials / Analysis
Characterization And Analytical Technique
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • Section 16Takeshi Takei
  • 16.1 The Development of Ferrite: A Reminiscence
  • Section 17Ryozi Uyeda
  • 17.1 Crystallography of Ultrafine Particles
  • Section 18Thomas Vasilos
  • 18.1 Solids Processing of Fine Grain Size Ceramics
  • Section 19O. J. Whittemore
  • 19.1 Pore Growth and Shrinkage During Sintering
  • 9.1 Study of theInitial Stages of Sintering Solids by Viscous Flow, Evaporation-Condensation, and Self-Diffusion
  • 9.2 Densification During Sintering in the Presence of a Liquid Phase. I. Theory
  • 9.3 Densification During Sintering in the Presence of a Liquid Phase. II. Experimental
  • 9.4 Effects of Applied Pressure on Densification During Sintering in the Presence of a Liquid Phase
  • 9.5 Sintering of Oxide and Carbide-Metal Compositions in Presence of a Liquid Phase
  • 9.6 Implications of Sintering Theories with Regard to Process Controls
  • 9.7 Solution-Precipitation Deformation under an Applied Stress
  • 9.8 The Sintering of Crystalline Oxides, I. Interactions Between Grain Boundaries and Pores
  • 9.9 The Sintering of Crystalline Oxides, II. Densification and Microstructure Development in UO2
  • 9.10 Regelation, Surface Diffusion, and Ice Sintering
  • Section 10G. C. Kuczynski
  • 10.1 Model Experiments and the Theory of Sintering
  • 4.1 Silicon and Carbon—The Key Elements in High Performance High Temperature Composites
  • Section 5R. C. Garvie
  • 5.1 A Personal History of the Development of Transformation Toughened PSZ Ceramics
  • 5.2 Ceramic Steel?
  • 5.3 Structure and Thermomechanical Properties of Partially Stabilized Zirconia in the CaO-ZrO2 System
  • 5.4 Sub-Eutectoid Aged Mg-PSZ Alloy with Enhanced Thermal Up-Shock Resistance
  • 5.5 Fracture Mechanics Study of a Transformation Toughened Zirconia Alloy in the CaO-ZrO2 System
  • 5.6 Microstructural Changes During Isothermal Aging of a Calcia Partially Stabilized Zirconia Alloy
  • Section 6Jan Hlavá?
  • 6.1 Reactivity of Solids in High Temperature Processes
  • Section 7Yunoshin Imai
  • 7.1 Study on A3 Transformation of Dispersion-Strengthened Iron
  • Section 8D. Lynn Johnson
  • 8.1 Computer Simulation of the Sintering of Two Spheres
  • Section 9W. D. Kingery
  • Preface v
  • Acknowledgements viii
  • Section 1J. E. Burke
  • 1.1 The Development of Pore-Free Ceramics
  • 1.2 Recrystallization and Sintering in Ceramics
  • 1.3 Role of Grain Boundaries in Sintering
  • Section 2R. L. Coble
  • 2.1 Sintering Crystalline Solids. I. Intermediate and Final State Diffusion Models
  • 2.2 Sintering Crystalline Solids. II. Experimental Test of Diffusion Models in Powder Compacts
  • Section 3H. E. Exner
  • 3.1 Solid-State Sintering: Critical Assessment of Theoretical Concepts and Experimental Methods
  • 3.2 Material Transport Rate and Stress Distribution During Grain Boundary Diffusion Driven by Surface Tension
  • 3.3 The Kinetics of Contact Formation During Sintering by Diffusion Mechanisms
  • 3.4 The Influence of Pressing on Sintering Kinetics of Spherical Particles
  • 3.5 Sintering Processes
  • 3.6 Computer Simulation of Sintering Processes
  • Section 4E. Fitzer
  • 10.2 Self-Diffusion in Sintering of Metallic Particles
  • 10.3 Segregation in Homogeneous Alloys During Sintering
  • Section 11 F. V. Lend
  • 11.1 The Role of Plastic Deformation in Sintering
  • Section 12J. A. Pask
  • 12.1 Thermodynamic and Geometric Factors in Sintering
  • 12.2 Effect of Water Vapor on Sintering of Ceramic Oxides
  • Section 13G. Petzow
  • 13.1 Basic Mechanisms of Liquid Phase Sintering
  • 13.2 Sintering with Additives
  • 13.3 Particle Rearrangement in Solid State Sintering
  • Section 14Shigeyuki Somiya
  • 14.1 Hydrothermal Reaction Sintering of Pure Cr2O3
  • 14.2 Fabrication of Dense, Nonstabilized ZrO2 Ceramics by Hydrothermal Reaction Sintering
  • 14.3 Hydrothermal Reaction Sintering of Monoclinic Zirconia
  • 14.4 Hydrothermal Reaction-Sintering of Monoclinic HfO2
  • 14.5 Reactions for Hydrothermal Reaction Sintering
  • Section 15Eiji Suito
  • 15.1 ElectronMicroscopic Investigations of Powders: The Shape, Crystal Habit and Microstructure of Fine Particles

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