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Fundamentals of Creep in Metals and Alloys
ID: 172434
Michael Kassner
Creep refers to the slow, permanent deformation of materials under external loads, or stresses. It explains the creep strength or resistance to this extension. This book is for experts in the field of strength of metals, alloys and ceramics. It explains creep behavior at the atomic or "dislocation defect" level. This book has many illustrations and many references. The figure formats are uniform and consistently labeled for increased readability. This book is the second edition that updates and improves the earlier edition.
. Numerous line drawings with consistent format and units allow easy comparison of the behavior of a very wide range of materials.
. Transmission electron micrographs provide direct insight into the basic microstructure of metals deforming at high temperatures.
. Extensive literature review of about 1000 references provides an excellent overview of the field.
1.0 Introduction
A. Description of Creep
B. Objectives
2.0 Five-Power-Law Creep
A. Macroscopic Relationships
B. Microstructural Observations
C. Rate-Controlling Mechanisms
D. Other Effects on Five-Power-Law Creep
3.0 Diffusional Creep
4.0 Harper Dorn Creep
A. The Size Effect
B. The Effect of Impurities
5.0 Three-Power-Law Viscous Glide Creep
6.0. Superplasticity
A. Introduction
B. Characteristics of Fine Structure Superplasticity
C. Microstructure of Fine Structure Superplastic Materials
D. Texture Studies in Superplasticity
E. High Strain Rate Superplasticity (HSRS)
F. Superplasticity in Nano and Submicrocrystalline Materials
7.0 Recrystallization
A. Introduction
B. Discontinuous Dynamic Recrystallization (DRX)
C. Geometric Dynamic Recrystallization
D. Particle Stimulated Nucleation (PSN)
E. Continuous Reactions
8.0 Creep Behavior of Particle Strengthened Alloys
A. Introduction and Theory
B. Small Volume Fraction Particles that are
Coherent and Incoherent with Small Aspect Ratios
9.0 Creep of Intermetallics
A. Introduction
B. Titanium Aluminides
C. Iron Aluminides
D. Nickel Aluminides
10.0 Creep Fracture
A. Background
B. Cavity Nucleation
C. Growth
. Numerous line drawings with consistent format and units allow easy comparison of the behavior of a very wide range of materials.
. Transmission electron micrographs provide direct insight into the basic microstructure of metals deforming at high temperatures.
. Extensive literature review of about 1000 references provides an excellent overview of the field.
1.0 Introduction
A. Description of Creep
B. Objectives
2.0 Five-Power-Law Creep
A. Macroscopic Relationships
B. Microstructural Observations
C. Rate-Controlling Mechanisms
D. Other Effects on Five-Power-Law Creep
3.0 Diffusional Creep
4.0 Harper Dorn Creep
A. The Size Effect
B. The Effect of Impurities
5.0 Three-Power-Law Viscous Glide Creep
6.0. Superplasticity
A. Introduction
B. Characteristics of Fine Structure Superplasticity
C. Microstructure of Fine Structure Superplastic Materials
D. Texture Studies in Superplasticity
E. High Strain Rate Superplasticity (HSRS)
F. Superplasticity in Nano and Submicrocrystalline Materials
7.0 Recrystallization
A. Introduction
B. Discontinuous Dynamic Recrystallization (DRX)
C. Geometric Dynamic Recrystallization
D. Particle Stimulated Nucleation (PSN)
E. Continuous Reactions
8.0 Creep Behavior of Particle Strengthened Alloys
A. Introduction and Theory
B. Small Volume Fraction Particles that are
Coherent and Incoherent with Small Aspect Ratios
9.0 Creep of Intermetallics
A. Introduction
B. Titanium Aluminides
C. Iron Aluminides
D. Nickel Aluminides
10.0 Creep Fracture
A. Background
B. Cavity Nucleation
C. Growth
172434
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Michael Kassner