Musharraf Zaman, Giancarlo Gioda, John Booker
Modeling in Geomechanics
Herausgegeben:Zaman, Musharraf; Gioda, Giancarlo; Booker, John
Musharraf Zaman, Giancarlo Gioda, John Booker
Modeling in Geomechanics
Herausgegeben:Zaman, Musharraf; Gioda, Giancarlo; Booker, John
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Die Geomechanik ist ein ausgesprochen interdisziplinäres Fachgebiet, das sich mit so verschiedenen Themen wie der Gesteinsmechanik, der Fluidmechanik von Öllagerstätten und der geothermischen Energie beschäftigt. Ausgewiesene Fachleute aus allen diesen Gebieten präsentieren Ihnen in diesem Band numerische und analytische Methoden zur Lösung vielfältiger praktischer Aufgaben. (04/00)
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Die Geomechanik ist ein ausgesprochen interdisziplinäres Fachgebiet, das sich mit so verschiedenen Themen wie der Gesteinsmechanik, der Fluidmechanik von Öllagerstätten und der geothermischen Energie beschäftigt. Ausgewiesene Fachleute aus allen diesen Gebieten präsentieren Ihnen in diesem Band numerische und analytische Methoden zur Lösung vielfältiger praktischer Aufgaben. (04/00)
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 728
- Erscheinungstermin: 22. August 2000
- Englisch
- Abmessung: 250mm x 175mm x 43mm
- Gewicht: 1356g
- ISBN-13: 9780471492184
- ISBN-10: 0471492183
- Artikelnr.: 09404531
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 728
- Erscheinungstermin: 22. August 2000
- Englisch
- Abmessung: 250mm x 175mm x 43mm
- Gewicht: 1356g
- ISBN-13: 9780471492184
- ISBN-10: 0471492183
- Artikelnr.: 09404531
Musharraf Zaman and Giancarlo Gioda are the authors of Modeling in Geomechanics, published by Wiley.
COMPUTATIONAL PROCEDURES. Boundary Element and Coupled Methods in
Geomechanics. Computational Strategies for Standard Soil Plasticity Models.
An Asynchronous Parallel Algorithm for Consolidation Problems. Estimation
of Material Parameters with Discontinuities for Elliptic Models.
CONSTITUTIVE MODELING AND TESTING. Constitutive and Numerical Modeling of
Liquefaction. Viscoplasticity of Geomaterials. Gradient and Cosserat
Models: Theory and Computation. Micromechanics of Granular Materials as
Structured Media. Constitutive Modeling for Fluid-Saturated Porous Solid by
the Asymptotic Homogenization Method. Unified Disturbed State Concept and
HiSS Plasticity Models. Laboratory Testing for the Validation of
Constitutive Models. Nondestructive Testing Techniques for Material
Characterization. MODELING AND SIMULATION. On the Mathematical Modeling of
Certain Fundamental Elastostatic Contact Problems in Geomechanics.
Application of the Theory of Classical Plasticity to the Analysis of the
Stress Distribution in Wedges of a Perfectly Frictional Material. Limit
Analysis of Foundation Systems with Offshore Applications. Modeling of
Interfaces and Joints. Dynamic Soil-Structure Interaction During Seismic
Events. Dynamics of Rigid Pavements Including Vehicle-Pavement Interaction
Effects. A Practical Modeling Technique for Assessing Potential Contaminant
Impacts Due to Landfills. Finite Element Analysis of Free Surface Seepage
Flows. Simulating Fully 3-D Hydraulic Fracturing. The Theory of Anisotropic
Poroelasticity with Applications. Modeling Fluid Flow and Rock Deformation
in Fractured Porous Media. Models for Uncertainty and Its Propagation with
Applications to Geomechanics. Natural Slopes in Slow Movement. Reliability
and Stability of Slopes. Index.
Geomechanics. Computational Strategies for Standard Soil Plasticity Models.
An Asynchronous Parallel Algorithm for Consolidation Problems. Estimation
of Material Parameters with Discontinuities for Elliptic Models.
CONSTITUTIVE MODELING AND TESTING. Constitutive and Numerical Modeling of
Liquefaction. Viscoplasticity of Geomaterials. Gradient and Cosserat
Models: Theory and Computation. Micromechanics of Granular Materials as
Structured Media. Constitutive Modeling for Fluid-Saturated Porous Solid by
the Asymptotic Homogenization Method. Unified Disturbed State Concept and
HiSS Plasticity Models. Laboratory Testing for the Validation of
Constitutive Models. Nondestructive Testing Techniques for Material
Characterization. MODELING AND SIMULATION. On the Mathematical Modeling of
Certain Fundamental Elastostatic Contact Problems in Geomechanics.
Application of the Theory of Classical Plasticity to the Analysis of the
Stress Distribution in Wedges of a Perfectly Frictional Material. Limit
Analysis of Foundation Systems with Offshore Applications. Modeling of
Interfaces and Joints. Dynamic Soil-Structure Interaction During Seismic
Events. Dynamics of Rigid Pavements Including Vehicle-Pavement Interaction
Effects. A Practical Modeling Technique for Assessing Potential Contaminant
Impacts Due to Landfills. Finite Element Analysis of Free Surface Seepage
Flows. Simulating Fully 3-D Hydraulic Fracturing. The Theory of Anisotropic
Poroelasticity with Applications. Modeling Fluid Flow and Rock Deformation
in Fractured Porous Media. Models for Uncertainty and Its Propagation with
Applications to Geomechanics. Natural Slopes in Slow Movement. Reliability
and Stability of Slopes. Index.
COMPUTATIONAL PROCEDURES. Boundary Element and Coupled Methods in
Geomechanics. Computational Strategies for Standard Soil Plasticity Models.
An Asynchronous Parallel Algorithm for Consolidation Problems. Estimation
of Material Parameters with Discontinuities for Elliptic Models.
CONSTITUTIVE MODELING AND TESTING. Constitutive and Numerical Modeling of
Liquefaction. Viscoplasticity of Geomaterials. Gradient and Cosserat
Models: Theory and Computation. Micromechanics of Granular Materials as
Structured Media. Constitutive Modeling for Fluid-Saturated Porous Solid by
the Asymptotic Homogenization Method. Unified Disturbed State Concept and
HiSS Plasticity Models. Laboratory Testing for the Validation of
Constitutive Models. Nondestructive Testing Techniques for Material
Characterization. MODELING AND SIMULATION. On the Mathematical Modeling of
Certain Fundamental Elastostatic Contact Problems in Geomechanics.
Application of the Theory of Classical Plasticity to the Analysis of the
Stress Distribution in Wedges of a Perfectly Frictional Material. Limit
Analysis of Foundation Systems with Offshore Applications. Modeling of
Interfaces and Joints. Dynamic Soil-Structure Interaction During Seismic
Events. Dynamics of Rigid Pavements Including Vehicle-Pavement Interaction
Effects. A Practical Modeling Technique for Assessing Potential Contaminant
Impacts Due to Landfills. Finite Element Analysis of Free Surface Seepage
Flows. Simulating Fully 3-D Hydraulic Fracturing. The Theory of Anisotropic
Poroelasticity with Applications. Modeling Fluid Flow and Rock Deformation
in Fractured Porous Media. Models for Uncertainty and Its Propagation with
Applications to Geomechanics. Natural Slopes in Slow Movement. Reliability
and Stability of Slopes. Index.
Geomechanics. Computational Strategies for Standard Soil Plasticity Models.
An Asynchronous Parallel Algorithm for Consolidation Problems. Estimation
of Material Parameters with Discontinuities for Elliptic Models.
CONSTITUTIVE MODELING AND TESTING. Constitutive and Numerical Modeling of
Liquefaction. Viscoplasticity of Geomaterials. Gradient and Cosserat
Models: Theory and Computation. Micromechanics of Granular Materials as
Structured Media. Constitutive Modeling for Fluid-Saturated Porous Solid by
the Asymptotic Homogenization Method. Unified Disturbed State Concept and
HiSS Plasticity Models. Laboratory Testing for the Validation of
Constitutive Models. Nondestructive Testing Techniques for Material
Characterization. MODELING AND SIMULATION. On the Mathematical Modeling of
Certain Fundamental Elastostatic Contact Problems in Geomechanics.
Application of the Theory of Classical Plasticity to the Analysis of the
Stress Distribution in Wedges of a Perfectly Frictional Material. Limit
Analysis of Foundation Systems with Offshore Applications. Modeling of
Interfaces and Joints. Dynamic Soil-Structure Interaction During Seismic
Events. Dynamics of Rigid Pavements Including Vehicle-Pavement Interaction
Effects. A Practical Modeling Technique for Assessing Potential Contaminant
Impacts Due to Landfills. Finite Element Analysis of Free Surface Seepage
Flows. Simulating Fully 3-D Hydraulic Fracturing. The Theory of Anisotropic
Poroelasticity with Applications. Modeling Fluid Flow and Rock Deformation
in Fractured Porous Media. Models for Uncertainty and Its Propagation with
Applications to Geomechanics. Natural Slopes in Slow Movement. Reliability
and Stability of Slopes. Index.