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  • 1
    Online Resource
    Online Resource
    Place of publication not identified : Academic Press
    UID:
    gbv_1655225634
    Format: Online Ressource (320)
    Edition: Online-Ausg.
    ISBN: 0123744520 , 9780123744524 , 1282168746 , 9781282168749 , 9780080922461
    Series Statement: International Geophysics v. 94
    Content: The dynamics of the earthquake rupture process are closely related to fault zone properties which the authors have intensively investigated by various observations in the field as well as by laboratory experiments. These include geological investigation of the active and fossil faults, physical and chemical features obtained by the laboratory experiments, as well as the seismological estimation from seismic waveforms. Earthquake dynamic rupture can now be modeled using numerical simulations on the basis of field and laboratory observations, which should be very useful for understanding earthquake rupture dynamics. Features: First overview of new and improved techniques in the study of earthquake faulting. Broad coverage. Full color Benefits: A must-have for all geophysicists who work on earthquake dynamics. Single resource for all aspects of earthquake dynamics (from lab measurements to seismological observations to numerical modelling). Bridges the disciplines of seismology, structural geology and rock mechanics. Helps readers to understand and interpret graphs and maps. Also has potential use as a supplementary resource for upper division and graduate geophysics courses
    Note: Includes index. - Print version record , Front Cover; Fault-Zone Properties and Earthquake Rupture Dynamics; Copyright Page; Contents; Preface; Foreword; List of Contributors; Chapter 1: Introduction; Fault-Zone Properties and Earthquake Rupture Dynamics; References; Chapter 2: Geometry and Slip Distribution of Coseismic Surface Ruptures Produced by the 2001 Kunlun, Northern Tibet, Earthquake; 1. Introduction; 2. Tectonic Setting; 3. Deformation Characteristics of the 2001 Coseismic Surface Rupture; 3.1. Geometric Distribution and Deformational Structure; 3.2.1. Measurement Method of Strike-Slip Offset; 3.2.2. Field Observations , 3.2.3. Analysis of High-Resolution Remote Sensing Images3.2.4. Seismic Inversion Results; 4. Discussion; 4.1. Relationship between the Coseismic Surface Rupture and Preexisting Fault; 4.2. Coseismic Strike-Slip Displacement; Acknowledgments; References; Chapter 3: Aseismic-Seismic Transition and Fluid Regime along Subduction Plate Boundaries and a Fossil Example from the Northern Apennines of Italy; 1. Introduction; 2. Deformation and Seismogenesis at Accretionary and Erosive Subduction Margins; 3. Seismogenic Zone: Definition , 6. The Up-Dip Limit of Seismogenesis in a Fossil Erosive Subduction Channel6.1. Subduction Channel Architecture; 7. Discussion and Comparison between Erosive and Accretionary Seismogenic Zones; 8. Conclusions and Future Perspective; References; Chapter 4: Fault Zone Structure and Deformation Processes along an Exhumed Low-Angle Normal Fault; 1. Introduction; 2. Regional Setting; 3. Fault Zone Architecture; 3.1. Geometry and Kinematics; 3.2. Fault Rock Distribution and Microstructures; 4. Discussion; 4.1. Fault Rock Evolution; 4.2. The Mechanical Paradox of Low-Angle Normal Faults , 4.3. A Slip Model for Low-Angle Normal Faults (Evidences That ZF Was Active as LANF)5. Conclusions; References; Chapter 5: Pseudotachylytes and Earthquake Source Mechanics; 2. Pseudotachylytes; 2.1. Mesoscale Geometry of Pseudotachylyte; 2.5. Production of Pseudotachylytes; 4. Rupture Dynamics; 5. Dynamic Fault Strength; 5.1. Field Estimates; 6.1. A New Approach to the Study of Exhumed Pseudotachylyte-Bearing Faults; Acknowledgments; References; Chapter 6: The Critical Slip Distance for Seismic and Aseismic Fault Zones of Finite Width; 1. Introduction , 2. Friction Laws and the Transition from Static to Kinetic Friction4. Model for a Shear Zone of Finite Thickness; 5. Results; 7. Discussion; Acknowledgments; References; Chapter 7: Scaling of Slip Weakening Distance with Final Slip during Dynamic Earthquake Rupture; 1. Introduction; 2. Rupture History from Kinematic Source Models; 3. Inferring Traction Evolution; 4. Measuring Dcprime from Peak Slip Velocity; 6. Scaling Between Dc and Final Slip; Chapter 8: Rupture Dynamics on Bimaterial Faults and Nonlinear Off-Fault Damage; 2. Formation of Damage Zone due to Dynamic Fault Growth , 2.1. Inference about Orientation and Distribution of Secondary Fractures
    Additional Edition: ISBN 0123744520
    Additional Edition: ISBN 1282168746
    Additional Edition: Erscheint auch als Druck-Ausgabe Fault-Zone Properties and Earthquake Rupture Dynamics
    Language: English
    Keywords: Bruchzone ; Erdbebenbelastung ; Electronic books ; Electronic books ; Electronic resource
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