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" Superplasticity of Alloys, Intermetallides and Ceramics "
by Oscar A. Kaibyshev.
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BL
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| Record Number
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754615
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b574577
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| Main Entry
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by Oscar A. Kaibyshev.
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| Title & Author
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Superplasticity of Alloys, Intermetallides and Ceramics\ by Oscar A. Kaibyshev.
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| Publication Statement
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Berlin, Heidelberg : Springer Berlin Heidelberg, 1992
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| Page. NO
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(xi, 317 pages 129 illustrations)
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| ISBN
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3642846734
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: 9783642846731
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| Contents
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1. Structural Superplasticity --; 1.1 Phenomenology and Influence of the Initial Microstructure --; 1.2 Structure Evolution and Fracture Modes --; 2. The Nature of Superplastic Flow --; 2.1 Experimental Investigations of Superplastic Deformation --; 2.2 Micromechanisms and the Theory of Superplastic Deformation --; 3. Microcrystalline Materials and Microstructure Refining --; 3.1 Structure and Properties of Microcrystalline Materials --; 3.2 Metallurgical Methods of Refinement --; 3.3 Heat Treatment --; 4. Superplastic Deformation of Magnesium Alloys --; 4.1 Effect of Chemical Compositon, Structure, and Temperature-Rate Conditions of Deformation on Ductility --; 4.2 Refining of the Magnesium Alloy Structure --; 4.3 Effect of Superplastic Deformation on the Properties of the Alloys --; 5. Superplasticity of Commercial Aluminium Alloys --; 5.1 Effect of Structure, Conditions of Deformation, and Chemical Composition on the Superplasticity of Aluminium Alloys --; 5.2 Processing Methods for Obtaining Microcrystalline Structure in Commercial Aluminium Alloys --; 5.3 Effect of Superplastic Deformation on the Structure and Properties of Aluminium Alloys --; 5.4 Effect of Grain Size on the Structural Strength of Aluminium Alloys --; 6. Superplasticity of Titanium Alloys --; 6.1 Plasticity and Superplasticity of the Titanium Alloys in the Single-Phase Region --; 6.2 Superplasticity of Titanium Alloys in the Two-Phase Region --; 6.3 Methods of Obtaining Microcrystalline Structure in Titanium Alloys --; 6.4 The Effect of Superplastic Deformation on the Mechanical Properties of the Titanium Alloys --; 7. Structural Superplasticity of Steels --; 7.1 Superplasticity of Iron, Plain Carbon, and Alloyed Steels --; 7.2 Preparation of Fine-Grained Microstructure in Steels --; 7.3 Effect of Superplastic Deformation on Mechanical Properties --; 8. Superplasticity of Nickel-based Superalloys --; 8.1 Effect of Structure, Deformation Temperature and Strain Rate on the Ductility of Alloys --; 8.2 Methods for Converting Alloys into a Superplastic State --; 8.3 High-Temperature Properties of Alloys After Processing in the Superplastic Condition --; 9. Superplasticity of Intermetallic Compounds --; 9.1 Superplasticity of Alloys with Both Intermetallic and Metallic Phases --; 9.2 Superplasticity of Intermetallic Compounds --; 9.3 Refining of Microstructure in Intermetallics --; 9.4 Effect of Superplastic Treatment on the Physico-mechanical Properties of Intermetallics --; 10. Superplasticity of Ceramics --; 10.1 Influence of Structure and Strain Conditions on the Superplasticity of Ceramics --; 10.2 Mechanisms of Superplastic Deformation of Ceramics --; 10.3 Methods for Creating Microcrystalline Structures in Ceramics --; 10.4 Influence of Superplastic Deformation on the Properties of Ceramics --; References --; Author Index.
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| Abstract
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Superplasticity is shown to be a universal phenomenon in materials ranging from metals and intermetallics to ceramics. Superplastic deformation facilitates the production of materials with specifically chosen properties. This is illustrated using the examples of Mg-, Al-, and Ti-based commercial alloys, steels, and superalloys. Some of the strenghts of this book are: the broad range of materials studied, the reduction of scientific results to a form suitable for the practitioner, a profound physical analysis of the phenomenon, a new approach to superplastic treatment as a kind of strain-heat treatment, the presentation of new data on superplastic flow and on production techniques of micro- and submicrocrystalline structures.
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Mechanical engineering.
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Physics.
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Surfaces (Physics)
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| LC Classification
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TA418.14B967 1992
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| Added Entry
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O A Kaĭbyshev
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