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Computational geomechanics with special reference to earthquake engineering /
Computational geomechanics with special reference to earthquake engineering /
Computational geomechanics
O.C. Zienkiewicz [and others]
- xi, 383 pages, 2 pages of plates : illustrations (some color) ; 25 cm
Includes bibliographical references and indexes
-- Introduction and the Concept of Effective Stress -- Equations Governing the Dynamic, Soil-Pore Fluid, Interaction -- Finite Element Discretization and Solution of the Governing Equations -- Constitutive Relations -- Plasticity -- Examples for Static, Consolidation and Partially Saturated Dynamic Problems -- Validation of Prediction by Centrifuge -- Prediction Applications and Back Analysis -- Some Special Aspects of Analysis and Formulation -- Computer Procedures for Static and Dynamic Saturated Porous Media finite element Analysis
Computational Geomechanics introduces the full theory of dynamic and static behaviour of porous media and shows how computation can predict the deformations of a structure, subject to an earthquake or consolidation; introduces the use of numerical, finite element procedures for soil and rock mechanics problems which has increased rapidly throughout the last decade; provides a comprehensive survey of major, constitutive models, which can simulate soil behaviour rationally; and explains practical procedures based on computational experience for real projects with particular emphasis on earthquake engineering
0471976407 9780471976400 0471982857 9780471982852
Earthquake engineering--Mathematics
TA705 / .C625 1999
Includes bibliographical references and indexes
-- Introduction and the Concept of Effective Stress -- Equations Governing the Dynamic, Soil-Pore Fluid, Interaction -- Finite Element Discretization and Solution of the Governing Equations -- Constitutive Relations -- Plasticity -- Examples for Static, Consolidation and Partially Saturated Dynamic Problems -- Validation of Prediction by Centrifuge -- Prediction Applications and Back Analysis -- Some Special Aspects of Analysis and Formulation -- Computer Procedures for Static and Dynamic Saturated Porous Media finite element Analysis
Computational Geomechanics introduces the full theory of dynamic and static behaviour of porous media and shows how computation can predict the deformations of a structure, subject to an earthquake or consolidation; introduces the use of numerical, finite element procedures for soil and rock mechanics problems which has increased rapidly throughout the last decade; provides a comprehensive survey of major, constitutive models, which can simulate soil behaviour rationally; and explains practical procedures based on computational experience for real projects with particular emphasis on earthquake engineering
0471976407 9780471976400 0471982857 9780471982852
Earthquake engineering--Mathematics
TA705 / .C625 1999
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