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A textbook for graduate students and researchers in geology, geophysics, materials science, mineralogy and ceramics.
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A textbook for graduate students and researchers in geology, geophysics, materials science, mineralogy and ceramics.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 482
- Erscheinungstermin: 8. Mai 2012
- Englisch
- Abmessung: 246mm x 189mm x 26mm
- Gewicht: 924g
- ISBN-13: 9781107406056
- ISBN-10: 1107406056
- Artikelnr.: 35895781
- Verlag: Cambridge University Press
- Seitenzahl: 482
- Erscheinungstermin: 8. Mai 2012
- Englisch
- Abmessung: 246mm x 189mm x 26mm
- Gewicht: 924g
- ISBN-13: 9781107406056
- ISBN-10: 1107406056
- Artikelnr.: 35895781
Part I. General Background: 1. Stress and strain
2. Thermodynamics
3. Phenomenological theory of deformation
Part II. Materials Science of Deformation: 4. Elasticity
5. Crystalline defects
6. Experimental techniques in the study of plastic deformation
7. Brittle fracture, brittle-plastic transition
8. Diffusional creep
9. Dislocation creep
10. Effects of pressure and water
11. Physical mechanisms of seismic wave attenuation
12. Deformation of multi-phase materials
13. Grain size
14. Lattice preferred orientation
15. Effects of phase transformations
16. Stability and localization of deformation
Part III. Geological and Geophysical Applications: 17. Composition and structure of Earth's interior
18. Time-dependent deformation of Earth and rheological structures
19. Inference of rheological structure of Earth from mineral physics
20. Heterogeneity of seismic wave velocities and its geodynamic significance
21. Seismic anisotropy and its geodynamic significance
References
Index.
2. Thermodynamics
3. Phenomenological theory of deformation
Part II. Materials Science of Deformation: 4. Elasticity
5. Crystalline defects
6. Experimental techniques in the study of plastic deformation
7. Brittle fracture, brittle-plastic transition
8. Diffusional creep
9. Dislocation creep
10. Effects of pressure and water
11. Physical mechanisms of seismic wave attenuation
12. Deformation of multi-phase materials
13. Grain size
14. Lattice preferred orientation
15. Effects of phase transformations
16. Stability and localization of deformation
Part III. Geological and Geophysical Applications: 17. Composition and structure of Earth's interior
18. Time-dependent deformation of Earth and rheological structures
19. Inference of rheological structure of Earth from mineral physics
20. Heterogeneity of seismic wave velocities and its geodynamic significance
21. Seismic anisotropy and its geodynamic significance
References
Index.
Part I. General Background: 1. Stress and strain
2. Thermodynamics
3. Phenomenological theory of deformation
Part II. Materials Science of Deformation: 4. Elasticity
5. Crystalline defects
6. Experimental techniques in the study of plastic deformation
7. Brittle fracture, brittle-plastic transition
8. Diffusional creep
9. Dislocation creep
10. Effects of pressure and water
11. Physical mechanisms of seismic wave attenuation
12. Deformation of multi-phase materials
13. Grain size
14. Lattice preferred orientation
15. Effects of phase transformations
16. Stability and localization of deformation
Part III. Geological and Geophysical Applications: 17. Composition and structure of Earth's interior
18. Time-dependent deformation of Earth and rheological structures
19. Inference of rheological structure of Earth from mineral physics
20. Heterogeneity of seismic wave velocities and its geodynamic significance
21. Seismic anisotropy and its geodynamic significance
References
Index.
2. Thermodynamics
3. Phenomenological theory of deformation
Part II. Materials Science of Deformation: 4. Elasticity
5. Crystalline defects
6. Experimental techniques in the study of plastic deformation
7. Brittle fracture, brittle-plastic transition
8. Diffusional creep
9. Dislocation creep
10. Effects of pressure and water
11. Physical mechanisms of seismic wave attenuation
12. Deformation of multi-phase materials
13. Grain size
14. Lattice preferred orientation
15. Effects of phase transformations
16. Stability and localization of deformation
Part III. Geological and Geophysical Applications: 17. Composition and structure of Earth's interior
18. Time-dependent deformation of Earth and rheological structures
19. Inference of rheological structure of Earth from mineral physics
20. Heterogeneity of seismic wave velocities and its geodynamic significance
21. Seismic anisotropy and its geodynamic significance
References
Index.