Verfügbarkeit: Crystalline plasticity and solid state flow in metamorphic rocks

Crystalline plasticity and solid state flow in metamorphic rocks:

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Bibliographische Detailangaben
Hauptverfasser:	Nicolas, Adolphe 1936-2020 (VerfasserIn), Poirier, Jean-Paul 1935- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London [u.a.] Wiley 1976
Schriftenreihe:	Selected topics in geological sciences
Schlagworte:	Kristall Plastizität Deformation Gestein Metamorphes Gestein
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 416 - 437
Beschreibung:	XVII, 444 S. Ill., zahlr. graph. Darst., Kt.
ISBN:	0471637912

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Datensatz im Suchindex

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adam_text	Contents Chapter 1. Introduction: Structural Analysis in Metamorphic Rocks 1 1.1. Metamorphic Rocks under Consideration ....... 1 1.2. Objectives in Structural Analysis of Metamorphic Rocks . 2 1.2.1. The tectonic and metamorphic history objective . 2 1.2.2. The kinematic and dynamic objectives ..... 3 1.3. The Methods in Kinematic Analysis .......... 4 1.3.1. The continuum mechanics method ....... 4 1.3.2. The physical metallurgy method ........ 6 1.3.3. Relations between the continuum mechanics and the physical metallurgy methods........ 8 Chapter 2. Elements of Solid Mechanics 10 2.1. General Considerations ............... 10 2.2. Definitions: Displacement, Distortion, Strain, Rotation 11 2.3. Stresses...................... 22 2.4. Relations between Stress and Strain: Elastic Deformation, Plastic Deformation ............... 30 2.4.1. Elastic constants............... 31 2.4.2. Plasticstrain ................ 36 2.5. Relations between Stress and Strain-Rate—Flow Regimes .................... 47 Chapter 3. Elements of Physical Metallurgy 52 3.1. Generalities on Lattice Defects in Crystals ....... 52 3.2. Vacancies..................... 53 3.2.1. Formation, migration, sources, sinks ...... 53 3.2.2. Equilibrium concentration of vacancies at a given temperature ............... 55 3.3. Self-diffusion by a Vacancy Mechanism ........ 57 3.3.1. Concepts and laws.............. 57 3.3.2. Measurement of diffusion coefficients...... 64 3.3.3. Formulae.................. 67 XU 3.3.4. Diffusion in ionic crystals ........... 68 3.4 Dislocations .................... 72 3.4.1. Generalities ................ 72 3.4.2. Burgers vector ............... 77 3.4.3. Stress field of a dislocation........... 80 3.4.4. Self-energy of a dislocation. Line tension .... 85 3.4.5. Forces exerted on a dislocation by stresses .... 90 3.4.6. Origin of dislocations............. 93 3.4.7. Relation between lattice curvature and stationary dislocations ............... 96 3.4.8. Glide of dislocations in a lattice ........ 99 3.4.9. Climb of dislocations............. 102 3.4.10. Relations between plastic strain and mobile disloca- tions .................. 107 3.5. Two-dimensional Defects .............. Ill 3.5.1. Stacking faults ............... Ill 3.5.2. Dislocation walls .............. 114 3.5.3. Grain-boundaries .............. 117 3.5.4. Interfaces ................. 120 Chapter 4. Flow and Annealing Processes in Crystals 122 4.1. Generalities: Work Hardening, Recovery ....... 122 4.1.1. Work hardening............... 124 4.1.2. Recovery.................. 129 4.1.3. Competition between work hardening and recov- ery ................... 134 4.2. Characteristic Dislocation Structures.......... 136 4.2.1. Dislocation structures of the cold-worked state . . 136 4.2.2. Dislocation structures of the high temperature flow................... 137 4.2.3. Empirical relations between dislocation microstruc- ture and applied stress ........... 137 4.3. Mechanisms of High Temperature Plastic Flow ....:. 142 4.3.1. Generalities ................ 142 4.3.2. Stress-induced diffusional flow of matter between surfaces ................. 143 4.3.3. Stress-induced diffusional transport of matter between dislocations............ 147 4.3.4. Creep by climb-controlled glide of dislocations (Weertman s creep) ............ 148 4.3.5. Superplastic deformation........... 150 4.3.6. Transformational superplasticity........ 154 4.4. Stress-induced Recrystallization (Piezocrystallization) . . 155 4.4.1. Generalities—chemical potential........ 155 X1U 4.4.2. Katnb s models for stress-induced recrystalliza- tion................... 158 4.4.3. Discussion ................. 161 4.5. Strain-induced Recrystallization ........... 163 4.5.1. Generalities ................ 163 4.5.2. Nucleation ................. 165 4.5.3. Grain boundary migration .......... 165 4.5.4. Dynamic recrystallization........... 169 Chapter 5. Plastic Deformation of Rock-forming Minerals 171 5.1. Introduction.................... 171 5.2. Olivine ...................... 171 5.2.1. Crystallography............... 171 5.2.2. Slipsystems................. 173 5.2.3. Recovery and recrystallization......... 179 5.2.4. High temperature creep laws ......... 180 5.3. Kyanite...................... 183 5.4. Enstatite and Clinoenstatite ............. 184 5.4.1. Crystallography............... 184 5.4.2. Slipsystems................. 185 5.4.3. Ortho-clinoenstatite inversion......... 186 5.4.4. Recovery and recrystallization......... 188 5.4.5. Exsolution lamellae ............. 188 5.5. Diopside ..................... 189 5.5.1. Crystallography............... 189 5.5.2. Slipsystems................. 190 5.5.3. Mechanical twinning............. 190 5.6. Amphiboles.................... 191 5.6.1. Crystallography............... 191 5.6.2. Slipsystems................. 192 5.6.3. Mechanical twinning............. 193 5.7. Micas....................... 193 5.7.1. Crystallography............... 193 5.7.2. Slip systems and kinking ........... 193 5.7.3. Recrystallization.............. 196 5.8. Plagioclases .................... 196 5.8.1. Crystallography............... 196 5.8.2. Slipsystems................. 197 5.8.3. Mechanical twinning............. 199 5.9. Quartz ...................... 200 5.9.1. Crystallography............... 200 5.9.2. Slipsystems................. 201 5.9.3. Mechanical twinning............. 205 XIV 5.9.4. Deformation mechanisms of wet quartz, hydrolytic weakening................ 206 5.9.5. Recovery and recrystallization......... 214 5.9.6. Inversion to coesite during deformation experi- ments .................. 215 5.10. Carbonates .................... 216 5.10.1. Crystallography............... 216 5.10.2. Mechanical twinning............. 218 5.10.3. Slipsystems................. 220 5.10.4. High temperature creep ........... 223 5.11. Halite ...................... 225 5.11.1. Crystallography............... 225 5.11.2. Slipsystems................. 225 5.11.3. Influence of pressure on cross-slip ....... 231 5.11.4. High temperature creep ........... 233 5.12. Anhydrite..................... 235 5.12.1. Crystallography............... 235 5.12.2. Mechanical twinning and slip systems...... 235 5.12.3. Stress-strain curves ............. 236 Chapter 6. Development of Textures and Preferred Orientations by Plastic Flow and Recrystallization: Results of Experi- ments and of Computer Simulation 237 6.1. Introduction.................... 237 6.2. Experimental Deformation of Olivine Aggregates .... 237 6.2.1. Plasticflow................. 240 6.2.2. Syntectonic recrystallization.......... 243 6.3. Experimental Deformation of Mica Aggregates..... 247 6.3.1. Situation of the problem ........... 247 6.3.2. Low temperature deformation......... 247 6.3.3. High temperature deformation......... 250 6.4. Experimental Deformation of Quartz Aggregates..... 253 6.4.1. PlasticFlow................. 254 6.4.2. Syntectonic recrystallization.......... 258 6.4.3. Annealing recrystallization .......... 264 6.5. Experimental Deformation of Calcite Aggregates..... 267 6.5.1. Textures and preferred orientations developed in uniaxial experiments............ 268 6.5.2. Interpretation................ 273 6.5.3. Preferred orientations developed in triaxial experi- ments .................. 275 6.5.4. Annealing ................. 277 6.6. Experimental Deformation of Dolomite Aggregates . . . 277 6.6.1. Plasticflow................. 277 XV 6.6.2. Syntectonic and annealingrecrystallization . . . 278 6.7. Experimental Deformation of Halite Aggregates .... 281 6.8. Experimental Deformation of Anhydrite Aggregates . . . 281 6.9. A Computer Simulation of Plastic Flow......... 284 6.9.1. Object................... 284 6.9.2. Method .................. 284 6.9.3. Statistical results on the assemblage of cells . . . 285 6.9.4. Observations on isolated cells ......... 289 6.9.5. Comparison with naturally and experimentally deformed polycrystals ........... 293 Chapter 7. Kinematic Method and Strain Analysis of Field Struc- tures 298 7.1. Introduction.................... 298 7.2. Method of Kinematic Analysis ............ 298 7.3. Field Structures .................. 300 7.3.1. Planar penetrative structures ......... 303 7.3.2. Linear penetrative structures—lineations .... 305 7.3.3. Non-penetrative structures .......... 307 Chapter 8. Representation and Analysis of Structural Data 314 8.1. Introduction.................... 314 8.2. Representativeness and Size of the Data Population ... 314 8.3. Directional Data without Topographic Location..... 318 8.3.1. Nature of the directional data ......... 318 8.3.2. Reference systems and principal modes of represen- tation .................. 319 8.3.3. Techniques of planar representation ...... 322 8.3.4. Construction of orientation density diagrams . . . 323 8.3.5. Analysis of orientation density diagrams..... 326 8.4. Data with a Topographic Location........... 329 8.4.1. Located dimensional data........... 329 8.4.2. Located directional data ........... 332 Chapter 9. Laboratory Techniques 333 9.1. Studies with the Optical Microscope.......... 333 9.1.1. Thin section preparation ........... 333 9.1.2. Principal studies in thin section......... 335 9.2. X-ray Determination of Preferred Orientation ..... 342 9.3. Techniques of Observation of Substructures and Disloca- tions ...................... 342 9.3.1. Dislocation decoration............ 342 9.3.2. Etchpits.................. 343 XVI 9.3.3. X-ray topography .............. 346 9.3.4. Transmission electron microscopy (TEM) .... 350 Chapter 10. Kinematic Interpretation of Structures, Textures and Preferred Orientations in Peridotites 357 10.1. Importance of Flow Studies in Peridotites........ 357 10.2. Different Groups of Deformed Peridotites and their Respec- tive Occurrences ................. 357 10.2.1. Peridotites in massifs ............ 357 10.2.2. Peridotites in xenoliths ........... 360 10.3. Textures and Preferred Orientations.......... 361 10.3.1. Baldissero: cold-working—dominant irrotational shear flow ................ 361 10.3.2. Lanzo core: hot-working—dominant rotational shear flow................ 364 10.3.3. Lanzo margin: extensive rotational shear flow . . 368 10.3.4. Basalt xenoliths sequence: increasing strain, recrystallization, deformation cycles..... 369 10.3.5. Kimberlite xenoliths: superplastic flow..... 376 10.4. Field Structures .................. 377 10.4.1. Foliation and lineations ........... 377 10.4.2. Folds................... 380 Chapter 11. Large-Scale Flow in Peridotites, Upper Mantle Geodynamics 383 11.1. Introduction.................... 383 11.2. Geometrical Models of Flow in Peridotites ....... 383 11.2.1. Flow studies in the different peridotite groups . . 383 11.2.2. Flow related to the intrusion in Iherzolite bodies . 384 11.2.3. Flow studies in harzburgite massifs within ophiol- ite complexes .............. 392 11.2.4. Uppermost mantle seismic anisotropy ..... 393 11.3. Creep of the Upper Mantle.............. 396 11.3.1. Plate tectonics and creep of the upper mantle . . 396 11.3.2. Viscosity of the upper mantle: assessment of vari- ous flow mechanisms ........... 398 11.3.3. Discussion ................ 403 11.3.4. Asthenosphere and low velocity zone ..... 407 Chapter 12. Conjectures on Flow Interpretation in Metamorphic Rocks 410 12.1. General Statement ................. 410 XVII 12.2. Kinematic Interpretation of Planar and Linear Penetrative Structures.................... 410 12.2.1. Foliation ................. 411 12.2.2. Lineations................. 412 12.2.3. Slatycleavage ............... 413 12.3. Kinematic Interpretation of Folds........... 414 References......................... 416 Subject Index ....................... 439
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spelling	Nicolas, Adolphe 1936-2020 Verfasser (DE-588)1089202954 aut Crystalline plasticity and solid state flow in metamorphic rocks A. Nicolas ; J. P. Poirier London [u.a.] Wiley 1976 XVII, 444 S. Ill., zahlr. graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Selected topics in geological sciences Literaturverz. S. 416 - 437 Kristall (DE-588)4033209-3 gnd rswk-swf Plastizität (DE-588)4046283-3 gnd rswk-swf Deformation (DE-588)4070262-5 gnd rswk-swf Gestein (DE-588)4020734-1 gnd rswk-swf Metamorphes Gestein (DE-588)4114576-8 gnd rswk-swf Metamorphes Gestein (DE-588)4114576-8 s Plastizität (DE-588)4046283-3 s DE-604 Kristall (DE-588)4033209-3 s Deformation (DE-588)4070262-5 s Gestein (DE-588)4020734-1 s Poirier, Jean-Paul 1935- Verfasser (DE-588)124786685 aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=005067432&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Nicolas, Adolphe 1936-2020 Poirier, Jean-Paul 1935- Crystalline plasticity and solid state flow in metamorphic rocks Kristall (DE-588)4033209-3 gnd Plastizität (DE-588)4046283-3 gnd Deformation (DE-588)4070262-5 gnd Gestein (DE-588)4020734-1 gnd Metamorphes Gestein (DE-588)4114576-8 gnd
subject_GND	(DE-588)4033209-3 (DE-588)4046283-3 (DE-588)4070262-5 (DE-588)4020734-1 (DE-588)4114576-8
title	Crystalline plasticity and solid state flow in metamorphic rocks
title_auth	Crystalline plasticity and solid state flow in metamorphic rocks
title_exact_search	Crystalline plasticity and solid state flow in metamorphic rocks
title_full	Crystalline plasticity and solid state flow in metamorphic rocks A. Nicolas ; J. P. Poirier
title_fullStr	Crystalline plasticity and solid state flow in metamorphic rocks A. Nicolas ; J. P. Poirier
title_full_unstemmed	Crystalline plasticity and solid state flow in metamorphic rocks A. Nicolas ; J. P. Poirier
title_short	Crystalline plasticity and solid state flow in metamorphic rocks
title_sort	crystalline plasticity and solid state flow in metamorphic rocks
topic	Kristall (DE-588)4033209-3 gnd Plastizität (DE-588)4046283-3 gnd Deformation (DE-588)4070262-5 gnd Gestein (DE-588)4020734-1 gnd Metamorphes Gestein (DE-588)4114576-8 gnd
topic_facet	Kristall Plastizität Deformation Gestein Metamorphes Gestein
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=005067432&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT nicolasadolphe crystallineplasticityandsolidstateflowinmetamorphicrocks AT poirierjeanpaul crystallineplasticityandsolidstateflowinmetamorphicrocks

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