|
|
|
|
| LEADER |
083180000a22005410004500 |
| 003 |
WAA |
| 005 |
20241009120047.0 |
| 007 |
ta |
| 008 |
t ag-|||||r|||| 001 0 spa d |
| 020 |
|
|
|a 9780521516648
|
| 040 |
|
|
|c WAA
|a WAA
|
| 041 |
|
|
|a spa
|
| 100 |
1 |
|
|a Fossen, Haakon
|9 18069
|
| 245 |
1 |
0 |
|a Structural geology /
|c Haakon Fossen
|
| 250 |
|
|
|a 1st ed.; 3rd pr.
|
| 260 |
|
|
|a Cambridge :
|b Cambridge University Press,
|c 2011.
|
| 300 |
|
|
|a 463 p. :
|b il., grafs, fot. ;
|c 28 cm.
|
| 500 |
|
|
|a Incluye índice analítico
|
| 505 |
|
|
|a 1. Structural geology and structural analysis. 11.1 Approaching structural geology -- 1.2 Structural geology and tectonics -- 1.3 Structural data sets -- 1.4 Field data -- 1.5 Remote sensing and geodesy -- 1.6 DEM, GIS and Google Earth -- 1.7 Seismic data -- 1.8 Experimental data -- 1.9 Numerical modeling -- 1.10 Other data sources -- 1.11 Organizing the data -- 1.12 Structural analysis -- 1.13 Concluding remarks
|
| 505 |
|
|
|a 2. Deformation -- 2.1 What is deformation? -- 2.2 Components of deformation -- 2.3 System of reference -- 2.4 Deformation: detached from history -- 2.5 Homogeneous and heterogeneous deformation -- 2.6 Mathematical description of deformation -- 2.7 One-dimensional strain -- 2.8 Strain in two dimensions -- 2.9 Three-dimensional strain -- 2.10 The strain ellipsoid -- 2.11 More about the strain ellipsoid -- 2.12 Volume change -- 2.13 Uniaxial strain (compaction) -- 2.14 Pure shear and coaxial deformations -- 2.15 Simple shear -- 2.16 Subsimple shear -- 2.17 Progressive deformation and flow parameters -- 2.18 Velocity field -- 2.19 Flow apophyses -- 2.20 Vorticity and Wk -- 2.21 Steady-state deformation -- 2.22 Incremental deformation -- 2.23 Strain compatibility and boundary conditions -- 2.24 Deformation history from deformed rocks -- 2.25 Coaxiality and progressive simple shear -- 2.26 Progressive pure shear -- 2.27 Progressive subsimple shear -- 2.28 Simple and pure shear and their scale dependence -- 2.29 General three-dimensional deformation -- 2.30 Stress versus strain
|
| 505 |
|
|
|a 3. Strain in rocks -- 3.1 Why perform strain analysis? -- 3.2 Strain in one dimension -- 3.3 Strain in two dimensions -- 3.4 Strain in three dimensions
|
| 505 |
|
|
|a 4. Stress -- 4.1 Definitions, magnitudes and units -- 4.2 Stress on a surface -- 4.3 Stress at a point -- 4.4 Stress components -- 4.5 The stress tensor (matrix) -- 4.6 Deviatoric stress and mean stress -- 4.7 Mohr circle and diagram
|
| 505 |
|
|
|a 5. Stress in the lithosphere -- 5.1 Importance of stress measurements -- 5.2 Stress measurements -- 5.3 Reference states of stress -- 5.4 The thermal effect on horizontal stress -- 5.5 Residual stress -- 5.6 Tectonic stress -- 5.7 Global stress patterns -- 5.8 Differential stress, deviatoric stress and some implications
|
| 505 |
|
|
|a 6. Rheology -- 6.1 Rheology and continuum mechanics -- 6.2 Idealized conditions -- 6.3 Elastic materials -- 6.4 Plasticity and flow: permanent deformation -- 6.5 Combined models -- 6.6 Experiments -- 6.7 The role of temperature, water, etc. -- 6.8 Definition of plastic, ductile and brittle deformation -- 6.9 Rheology of the lithosphere
|
| 505 |
|
|
|a 7. Fracture and brittle deformation -- 7.1 Brittle deformation mechanisms -- 7.2 Types of fractures -- 7.3 Failure and fracture criteria -- 7.4 Microdefects and failure -- 7.5 Fracture termination and interaction -- 7.6 Reactivation and frictional sliding -- 7.7 Fluid pressure, effective stress and poroelasticity -- 7.8 Deformation bands and fractures in porous rocks
|
| 505 |
|
|
|a 8. Faults -- 8.1 Fault terminology -- 8.2 Fault anatomy -- 8.3 Displacement distribution -- 8.4 Identifying faults in an oil field setting -- 8.5 The birth and growth of faults -- 8.6 Growth of fault populations -- 8.7 Faults, communication and sealing properties
|
| 505 |
|
|
|a 9. Kinematics and paleostress in the brittle regime -- 9.1 Kinematic criteria -- 9.2 Stress from faults -- 9.3 A kinematic approach to fault slip data -- 9.4 Contractional and extensional structures
|
| 505 |
|
|
|a 10. Deformation at the microscale -- 10.1 Deformation mechanisms and microstructures -- 10.2 Brittle versus plastic deformation mechanisms -- 10.3 Brittle deformation mechanisms -- 10.4 Mechanical twinning -- 10.5 Crystal defects -- 10.6 From the atomic scale to microstructures
|
| 505 |
|
|
|a 11. Folds and folding -- 11.1 eometric description -- 11.2 Folding: mechanisms and processes -- 11.3 Fold interference patterns and refolded folds -- 11.4 Folds in shear zones -- 11.5 Folding at shallow crustal depths
|
| 505 |
|
|
|a 12. Foliation and cleavage -- 12.1 Basic concepts -- 12.2 Relative age terminology -- 12.3 Cleavage development -- 12.4 Cleavage, folds and strain -- 12.5 Foliations in quartzites, gneisses and mylonite zones
|
| 505 |
|
|
|a 13. Lineations -- 13.1 Basic terminology -- 13.2 Lineations related to plastic deformation -- 13.3 Lineations in the brittle regime -- 13.4 Lineations and kinematics
|
| 505 |
|
|
|a 14. Boudinage -- 14.1 Boudinage and pinch-and-swell structures -- 14.2 Geometry, viscosity and strain -- 14.3 Asymmetric boudinage and rotation -- 14.4 Foliation boudinage -- 14.5 Boudinage and the strain ellipse -- 14.6 Large-scale boudinage
|
| 505 |
|
|
|a 15. Shear zones and mylonites -- 15.1 What is a shear zone? -- 15.2 The ideal plastic shear zone -- 15.3 Adding pure shear to a simple shear zone -- 15.4 Non-plane strain shear zones -- 15.5 Mylonites and kinematic indicators -- 15.6 Growth of shear zones
|
| 505 |
|
|
|a 16. Contractional regimes -- 16.1 Contractional faults -- 16.2 Thrust faults -- 16.3 Ramps, thrusts and folds -- 16.4 Orogenic wedges
|
| 505 |
|
|
|a 17. Extensional regimes -- 17.1 Extensional faults -- 17.2 Fault systems -- 17.3 Low-angle faults and core complexes -- 17.4 Ramp-flat-ramp geometries -- 17.5 Footwall versus hanging-wall collapse -- 17.6 Rifting -- 17.7 Half-grabens and accommodation zones -- 17.8 Pure and simple shear models -- 17.9 Stretching estimates, fractals and power-law relations -- 17.10 Passive margins and oceanic rifts -- 17.11 Orogenic extension and orogenic collapse -- 17.12 Postorogenic extension --
|
| 505 |
|
|
|a 18. Strike-slip, transpression and transtension -- 18.1 Strike-slip faults -- 18.2 Transfer faults -- 18.3 Transcurrent faults -- 18.4 Development and anatomy of strike-slip faults -- 18.5 Transpression and transtension -- 18.6 Strain partitioning
|
| 505 |
|
|
|a 19. Salt tectonics -- 19.1 Salt tectonics and halokinesis -- 19.2 Salt properties and rheology -- 19.3 Salt diapirism, salt geometry and the flow of salt -- 19.4 Rising diapirs: processes -- 19.5 Salt diapirism in the extensional regime -- 19.6 Diapirism in the contractional regime -- 19.7 Diapirism in strike-slip settings -- 19.8 Salt collapse by karstification -- 19.9 Salt décollements
|
| 505 |
|
|
|a 20. Balancing and restoration -- 20.1 Basic concepts and definitions -- 20.2 Restoration of geologic sections -- 20.3 Restoration in map view -- 20.4 Geomechanically based restoration -- 20.5 Restoration in three dimensions -- 20.6 Backstripping
|
| 505 |
|
|
|a 21. A glimpse of larger picture -- 21.1 Sythesizing -- 21.2 Deformation phases -- 21.3 Progressive deformation -- 21.4 Metamorphic textures -- 21.5 Radiometric dating and P-T-t paths -- 21.6 Tectonics and sedementation
|
| 505 |
|
|
|a Appendix A: More about the deformation matrix -- Appendix B: Stereographic projection
|
| 650 |
|
0 |
|a Geología
|9 1052
|
| 650 |
|
0 |
|a Tectónica
|9 10991
|
| 650 |
|
0 |
|a Geología estructural
|9 18067
|
| 650 |
|
0 |
|a Paleoestréss
|9 28711
|
| 942 |
|
|
|2 CDU
|c LIBRO
|
| 999 |
|
|
|c 4638
|d 4638
|
| 952 |
|
|
|0 0
|1 0
|2 CDU
|4 0
|6 551_240000000000000_F795
|7 0
|9 8669
|a 04
|b 04
|d 2018-02-05
|l 33
|m 17
|o 551.24 F795
|p 32-02182
|q 2026-03-03
|r 2025-12-16
|s 2025-12-16
|w 2018-02-05
|y LIBRO
|
| 952 |
|
|
|0 0
|1 0
|2 CDU
|4 0
|6 551_240000000000000_F795
|7 0
|9 8670
|a 04
|b 04
|c CART
|d 2018-02-05
|l 5
|o 551.24 F795
|p 32-02181
|r 2025-10-27
|s 2025-10-23
|w 2018-02-05
|y LIBRO NPP
|