Jacob Lubliner
Plasticity Theory
Jacob Lubliner
Plasticity Theory
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This self-contained text is devoted to classical quasistatic problems of rate-independent plasticity theory, discussing the finite element method for both viscoplastic and rate-independent plastic solids. 1990 edition.
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This self-contained text is devoted to classical quasistatic problems of rate-independent plasticity theory, discussing the finite element method for both viscoplastic and rate-independent plastic solids. 1990 edition.
Produktdetails
- Produktdetails
- Verlag: Dover Publications
- Seitenzahl: 544
- Erscheinungstermin: 29. Februar 2008
- Englisch
- Abmessung: 233mm x 154mm x 30mm
- Gewicht: 705g
- ISBN-13: 9780486462905
- ISBN-10: 0486462900
- Artikelnr.: 22859125
- Verlag: Dover Publications
- Seitenzahl: 544
- Erscheinungstermin: 29. Februar 2008
- Englisch
- Abmessung: 233mm x 154mm x 30mm
- Gewicht: 705g
- ISBN-13: 9780486462905
- ISBN-10: 0486462900
- Artikelnr.: 22859125
Jacob Lubliner is Professor Emeritus of Civil and Environmental Engineering at the University of California at Berkeley.
1. Introduction to Continuum Thermomechanics 1.1 Mathematical Fundamentals
1.2 Continuum Deformation 1.3 Mechanics of Continuous Bodies 1.4
Constitutive Relations: Elastic 1.5 Constitutive Relations: Inelastic 2.
The Physics of Plasticity 2.1 Phenomenology of Plastic Deformation 2.2
Crystal Plasticity 2.3 Plasticity of Soils, Rocks and Concrete 3.
Constitutive Theory 3.1 Viscoplasticity 3.2 Rate-Independent Plasticity 3.3
Yield Criteria, Flow Rules and Hardening Rules 3.4 Uniqueness and Extremum
Theorems 3.5 Limit-Analysis and Shakedown Theorems 4. Problems in Contained
Plastic Deformation 4.1 Elementary Problems 4.2 Elastic-Plastic Torsion 4.3
The Thick-Walled Hollow Sphere and Cylinder 4.4 Elastic-Plastic Bending 4.5
Numerical Methods 5. Problems in Plastic Flow and Collapse I: Theories and
"Exact" Solutions 5.1 Plane Problems 5.2 Collapse of Circular Plates 5.3
Plastic Buckling 6. Problems in Plastic Flow and Collapse II: Applications
of Limit Analysis 6.1 Limit Analysis of Plane Problems 6.2 Beams Under
Combined Stresses 6.3 Limit Analysis of Trusses, Beams and Frames 6.4 Limit
Analysis of Plates and Shells 7. Dynamic Problems 7.1 Dynamic Loading of
Structures 7.2 One-Dimensional Plastic Waves 7.3 Three-Dimensional Waves 8.
Large-Deformation Plasticity 8.1 Large-Deformation Continuum Mechanics 8.2
Large-Deformation Constitutive Theory 8.3 Numerical Methods in
Large-Deformation Plasticity References Index
1.2 Continuum Deformation 1.3 Mechanics of Continuous Bodies 1.4
Constitutive Relations: Elastic 1.5 Constitutive Relations: Inelastic 2.
The Physics of Plasticity 2.1 Phenomenology of Plastic Deformation 2.2
Crystal Plasticity 2.3 Plasticity of Soils, Rocks and Concrete 3.
Constitutive Theory 3.1 Viscoplasticity 3.2 Rate-Independent Plasticity 3.3
Yield Criteria, Flow Rules and Hardening Rules 3.4 Uniqueness and Extremum
Theorems 3.5 Limit-Analysis and Shakedown Theorems 4. Problems in Contained
Plastic Deformation 4.1 Elementary Problems 4.2 Elastic-Plastic Torsion 4.3
The Thick-Walled Hollow Sphere and Cylinder 4.4 Elastic-Plastic Bending 4.5
Numerical Methods 5. Problems in Plastic Flow and Collapse I: Theories and
"Exact" Solutions 5.1 Plane Problems 5.2 Collapse of Circular Plates 5.3
Plastic Buckling 6. Problems in Plastic Flow and Collapse II: Applications
of Limit Analysis 6.1 Limit Analysis of Plane Problems 6.2 Beams Under
Combined Stresses 6.3 Limit Analysis of Trusses, Beams and Frames 6.4 Limit
Analysis of Plates and Shells 7. Dynamic Problems 7.1 Dynamic Loading of
Structures 7.2 One-Dimensional Plastic Waves 7.3 Three-Dimensional Waves 8.
Large-Deformation Plasticity 8.1 Large-Deformation Continuum Mechanics 8.2
Large-Deformation Constitutive Theory 8.3 Numerical Methods in
Large-Deformation Plasticity References Index
1. Introduction to Continuum Thermomechanics 1.1 Mathematical Fundamentals
1.2 Continuum Deformation 1.3 Mechanics of Continuous Bodies 1.4
Constitutive Relations: Elastic 1.5 Constitutive Relations: Inelastic 2.
The Physics of Plasticity 2.1 Phenomenology of Plastic Deformation 2.2
Crystal Plasticity 2.3 Plasticity of Soils, Rocks and Concrete 3.
Constitutive Theory 3.1 Viscoplasticity 3.2 Rate-Independent Plasticity 3.3
Yield Criteria, Flow Rules and Hardening Rules 3.4 Uniqueness and Extremum
Theorems 3.5 Limit-Analysis and Shakedown Theorems 4. Problems in Contained
Plastic Deformation 4.1 Elementary Problems 4.2 Elastic-Plastic Torsion 4.3
The Thick-Walled Hollow Sphere and Cylinder 4.4 Elastic-Plastic Bending 4.5
Numerical Methods 5. Problems in Plastic Flow and Collapse I: Theories and
"Exact" Solutions 5.1 Plane Problems 5.2 Collapse of Circular Plates 5.3
Plastic Buckling 6. Problems in Plastic Flow and Collapse II: Applications
of Limit Analysis 6.1 Limit Analysis of Plane Problems 6.2 Beams Under
Combined Stresses 6.3 Limit Analysis of Trusses, Beams and Frames 6.4 Limit
Analysis of Plates and Shells 7. Dynamic Problems 7.1 Dynamic Loading of
Structures 7.2 One-Dimensional Plastic Waves 7.3 Three-Dimensional Waves 8.
Large-Deformation Plasticity 8.1 Large-Deformation Continuum Mechanics 8.2
Large-Deformation Constitutive Theory 8.3 Numerical Methods in
Large-Deformation Plasticity References Index
1.2 Continuum Deformation 1.3 Mechanics of Continuous Bodies 1.4
Constitutive Relations: Elastic 1.5 Constitutive Relations: Inelastic 2.
The Physics of Plasticity 2.1 Phenomenology of Plastic Deformation 2.2
Crystal Plasticity 2.3 Plasticity of Soils, Rocks and Concrete 3.
Constitutive Theory 3.1 Viscoplasticity 3.2 Rate-Independent Plasticity 3.3
Yield Criteria, Flow Rules and Hardening Rules 3.4 Uniqueness and Extremum
Theorems 3.5 Limit-Analysis and Shakedown Theorems 4. Problems in Contained
Plastic Deformation 4.1 Elementary Problems 4.2 Elastic-Plastic Torsion 4.3
The Thick-Walled Hollow Sphere and Cylinder 4.4 Elastic-Plastic Bending 4.5
Numerical Methods 5. Problems in Plastic Flow and Collapse I: Theories and
"Exact" Solutions 5.1 Plane Problems 5.2 Collapse of Circular Plates 5.3
Plastic Buckling 6. Problems in Plastic Flow and Collapse II: Applications
of Limit Analysis 6.1 Limit Analysis of Plane Problems 6.2 Beams Under
Combined Stresses 6.3 Limit Analysis of Trusses, Beams and Frames 6.4 Limit
Analysis of Plates and Shells 7. Dynamic Problems 7.1 Dynamic Loading of
Structures 7.2 One-Dimensional Plastic Waves 7.3 Three-Dimensional Waves 8.
Large-Deformation Plasticity 8.1 Large-Deformation Continuum Mechanics 8.2
Large-Deformation Constitutive Theory 8.3 Numerical Methods in
Large-Deformation Plasticity References Index