G. Swoboda
Numerical Methods in Geomechanics Volume 1 (eBook, PDF)
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G. Swoboda
Numerical Methods in Geomechanics Volume 1 (eBook, PDF)
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This book is based on the papers presented at the 6th International Conference on Numerical Methods in Geomechanics in Innsbruck from 11-15 April 1988. It presents a derivation of an analytical method in due consideration of mechanical interaction between groundwater and surrounding ground.
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This book is based on the papers presented at the 6th International Conference on Numerical Methods in Geomechanics in Innsbruck from 11-15 April 1988. It presents a derivation of an analytical method in due consideration of mechanical interaction between groundwater and surrounding ground.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 716
- Erscheinungstermin: 1. November 2017
- Englisch
- ISBN-13: 9781351427678
- Artikelnr.: 50214746
- Verlag: Taylor & Francis
- Seitenzahl: 716
- Erscheinungstermin: 1. November 2017
- Englisch
- ISBN-13: 9781351427678
- Artikelnr.: 50214746
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
G. Swoboda
Main lectures; 1: Behavior and simulation of soil tunnel with thin cover;
2: Progress in BEM applications in geomechanics via examples; 3:
Application of analytic and semi-analytic techniques to geotechnical
analysis; 4: Incrementally multi-linear and non-linear constitutive
relations: A comparative study for practical use; 5: Unified approach for
constitutive modelling for geologic materials and discontinuities; 6:
Dynamic nonlinear hysteretic effective stress analysis in geotechnical
engineering; 7: Some numerical techniques for free-surface seepage
analysis; 8: Numerical methods versus statistical safety in geomechanics;
9: Simulation of hydraulic fracture in poroelastic rock; 10: A modelling of
jointed rock mass; 11: Some recent developments in interactive computer
graphics for 3-D nonlinear geotechnical FEM analysis; 12: Static and
dynamic approaches to rock burst phenomena; 13: Two 'Class A' predictions
of offshore foundation performance; 14: Numerical modelling of tunnel
blasting; 15: Stability and bifurcation in geomechanics; 16: Simple models
for soil behaviour and applications to problems of soil liquefaction; 1:
Numerical techniques and programming; 17: Experiences with the analysis of
geotechnical problems solved by the FEM using different equation solvers on
several computers; 18: Some computational experiences of a geomechanical
benchmark in rock salt; 19: Improved algorithm for non-linear analysis by
the finite element method; 20: A unified approach to the analysis of
saturated-unsaturated elastoplastic porous media; 21: Uni-axial wave
propagation through fluid-saturated elastic soil layer; 22: Formulations
and a methodology for computing the response of unsaturated soils to
changes in temperature; 23: Several aspects of formation of structures of
computer programs, selection and algorithmization of medium models in
geomechanics; 24: A boundary integral code based on a variational
formulation; 25: The use of Lees' algorithm in the analysis of some ground
heat and mass transfer problems; 26: Hybrid finite element model utilized
for fracture of concrete beams on elastic foundations; 27: Limit analysis
of plane problems in soil mechanics; 28: Displacement discontinuities and
interactive graphics for three-dimensional, hydraulic fracturing
simulators; 29: Stress analysis of large structures in hydraulic
engineering by weighted residuals method; 30: An automatic soil parameters
identification software; 2: Constitutive laws of geotechnical materials;
31: Generalized constitutive equations of saturated sand; 32: A cyclic
viscoplastic constitutive model for clay; 33: Coupled elasto-plastic
deformation-flow finite element analysis using imaginary viscosity
procedure; 34: Strength behavior of granular materials using discrete
numerical modelling; 35: A complete constitutive law for soil structure
interfaces; 36: Numerical investigations on discharging silos; 37: A
generalization of Hvorslev's equivalent stress; 38: Incremental theory of
elasticity and plasticity under cyclic loading; 39: Numerical simulation of
the behaviour of saturated sand; 40: A constitutive model of soils for
evaluating principal stress rotation; 41: Assessment of a new class of
implicit integration schemes for a cone-cap plasticity model; 42: Model and
parameters for the elastic behaviour of soils; 43: Discontinuous numerical
model for partially saturated soils at low saturation; 44: Modelling the
development of rupture surfaces using displacement-type finite element
methods; 45: Constitutive subroutine to simulate alternating loading of
granular materials; 46: Constitutive equation of tertiary sedimentary
mudstone considering strain hardening and strain softening; 47: Theoretical
evaluation of the frictional damping of rocks; 48: Analysis of the cone
penetration test by the strain path method; 49: Constitutive laws including
kinematic hardening for clay with pore water pressure and for sand; 50: An
anisotropic hardening model for the mechanical behaviour of clay; 51:
Three-dimensional shearing deformation of sand; 52: Model of sand behaviour
towards shearing and compressibility in three-dimensional conditions of
stress and strain; 53: Elasto-plastic anisotropic hardening model for sand
in a wide stress region; 54: Cap parameters for clayey soils; 55: A
constitutive model with two yield surfaces for soils; 56: Verification of
elasto-viscoplastic model of normally consolidated clays in undrained
creep; 57: A solution method for continua with continuously varying
stiffnesses; 58: Mathematically consistent formulation of elastoplastic
constitutive equations; 59: On errors involved in the
experimental-numerical investigation in triaxial compression tests; 60:
Non-associated flow rules in computational plasticity; 61: Constitutive
relations with general Masing rule under multi-dimensional stress
condition; 62: Some constitutive laws for creeping soil and for
rate-dependent sliding at interfaces; 63: Model with multiple mechanisms
for anisotropic behaviours of sands; 64: On the constitutive equations of
the chalk; 65: Mathematical modelling and prognose dimensions of karst
sinkholes in multilayered soil bases of buildings and structures; 66: A
model for predicting the viscoplastic stress-strain behaviour of clay in
three-dimensional stresses; 67: Effect of soil strength on numerical
simulation; 68: Constitutive models constrained by the entropy maximum
principle; 69: Geomechanical applications of fully coupled, transient
thermoelasticity; 3: 3 Flow and consolidation; 70: Numerical analysis of
soil stability around deep wellbores; 71: Numerical investigation of
hydraulic fracturing in clays; 72: Consolidation analysis of soils by
elasto-plastic constitutive models; 73: Deformation of a sedimentary
overburden on a slowly creeping substratum; 74: Evaluation of a
quasi-dynamic algorithm for soil consolidation problems; 75: Consolidation
of layered soils under time-dependent loading; 76: Constitutive modelling
for anisotropically overconsolidated clay; 77: Pore pressure built up as a
result of wave action; 78: Modelling thermal, three-dimensional,
three-phase flow in a deforming soil; 79: Finite difference analysis of
consolidation by vertical drains with well resistance; 80: Interpretation
of concrete top base foundation behaviour on soft ground by coupled stress
flow finite element analysis; 81: On the determination of the matrix of
permeability for partially saturated finite elements; 82: Imperfect
underground barriers under transient seepage conditions; 83: Prediction of
consolidation of elastoplastic subsoils; 84: Effects of test procedure on
constant rate of strain pressuremeter tests in clay; 85: Analytical
procedure for evaluating pore-water pressure and deformation of saturated
clay ground subjected to traffic loads; 86: Partial-drained behaviour of
clay under cyclic loading; 87: Consolidation settlements of interacting
structural foundations; 88: Undrained Bearing Capacity of Anisotropically
Consolidated Clay; 89: Three-dimensional bearing capacity analysis of clays
under partially drained condition; 90: The effect of anisotropy on
consolidation in a soil layer; 91: Flow analysis of clay layer due to berth
construction
2: Progress in BEM applications in geomechanics via examples; 3:
Application of analytic and semi-analytic techniques to geotechnical
analysis; 4: Incrementally multi-linear and non-linear constitutive
relations: A comparative study for practical use; 5: Unified approach for
constitutive modelling for geologic materials and discontinuities; 6:
Dynamic nonlinear hysteretic effective stress analysis in geotechnical
engineering; 7: Some numerical techniques for free-surface seepage
analysis; 8: Numerical methods versus statistical safety in geomechanics;
9: Simulation of hydraulic fracture in poroelastic rock; 10: A modelling of
jointed rock mass; 11: Some recent developments in interactive computer
graphics for 3-D nonlinear geotechnical FEM analysis; 12: Static and
dynamic approaches to rock burst phenomena; 13: Two 'Class A' predictions
of offshore foundation performance; 14: Numerical modelling of tunnel
blasting; 15: Stability and bifurcation in geomechanics; 16: Simple models
for soil behaviour and applications to problems of soil liquefaction; 1:
Numerical techniques and programming; 17: Experiences with the analysis of
geotechnical problems solved by the FEM using different equation solvers on
several computers; 18: Some computational experiences of a geomechanical
benchmark in rock salt; 19: Improved algorithm for non-linear analysis by
the finite element method; 20: A unified approach to the analysis of
saturated-unsaturated elastoplastic porous media; 21: Uni-axial wave
propagation through fluid-saturated elastic soil layer; 22: Formulations
and a methodology for computing the response of unsaturated soils to
changes in temperature; 23: Several aspects of formation of structures of
computer programs, selection and algorithmization of medium models in
geomechanics; 24: A boundary integral code based on a variational
formulation; 25: The use of Lees' algorithm in the analysis of some ground
heat and mass transfer problems; 26: Hybrid finite element model utilized
for fracture of concrete beams on elastic foundations; 27: Limit analysis
of plane problems in soil mechanics; 28: Displacement discontinuities and
interactive graphics for three-dimensional, hydraulic fracturing
simulators; 29: Stress analysis of large structures in hydraulic
engineering by weighted residuals method; 30: An automatic soil parameters
identification software; 2: Constitutive laws of geotechnical materials;
31: Generalized constitutive equations of saturated sand; 32: A cyclic
viscoplastic constitutive model for clay; 33: Coupled elasto-plastic
deformation-flow finite element analysis using imaginary viscosity
procedure; 34: Strength behavior of granular materials using discrete
numerical modelling; 35: A complete constitutive law for soil structure
interfaces; 36: Numerical investigations on discharging silos; 37: A
generalization of Hvorslev's equivalent stress; 38: Incremental theory of
elasticity and plasticity under cyclic loading; 39: Numerical simulation of
the behaviour of saturated sand; 40: A constitutive model of soils for
evaluating principal stress rotation; 41: Assessment of a new class of
implicit integration schemes for a cone-cap plasticity model; 42: Model and
parameters for the elastic behaviour of soils; 43: Discontinuous numerical
model for partially saturated soils at low saturation; 44: Modelling the
development of rupture surfaces using displacement-type finite element
methods; 45: Constitutive subroutine to simulate alternating loading of
granular materials; 46: Constitutive equation of tertiary sedimentary
mudstone considering strain hardening and strain softening; 47: Theoretical
evaluation of the frictional damping of rocks; 48: Analysis of the cone
penetration test by the strain path method; 49: Constitutive laws including
kinematic hardening for clay with pore water pressure and for sand; 50: An
anisotropic hardening model for the mechanical behaviour of clay; 51:
Three-dimensional shearing deformation of sand; 52: Model of sand behaviour
towards shearing and compressibility in three-dimensional conditions of
stress and strain; 53: Elasto-plastic anisotropic hardening model for sand
in a wide stress region; 54: Cap parameters for clayey soils; 55: A
constitutive model with two yield surfaces for soils; 56: Verification of
elasto-viscoplastic model of normally consolidated clays in undrained
creep; 57: A solution method for continua with continuously varying
stiffnesses; 58: Mathematically consistent formulation of elastoplastic
constitutive equations; 59: On errors involved in the
experimental-numerical investigation in triaxial compression tests; 60:
Non-associated flow rules in computational plasticity; 61: Constitutive
relations with general Masing rule under multi-dimensional stress
condition; 62: Some constitutive laws for creeping soil and for
rate-dependent sliding at interfaces; 63: Model with multiple mechanisms
for anisotropic behaviours of sands; 64: On the constitutive equations of
the chalk; 65: Mathematical modelling and prognose dimensions of karst
sinkholes in multilayered soil bases of buildings and structures; 66: A
model for predicting the viscoplastic stress-strain behaviour of clay in
three-dimensional stresses; 67: Effect of soil strength on numerical
simulation; 68: Constitutive models constrained by the entropy maximum
principle; 69: Geomechanical applications of fully coupled, transient
thermoelasticity; 3: 3 Flow and consolidation; 70: Numerical analysis of
soil stability around deep wellbores; 71: Numerical investigation of
hydraulic fracturing in clays; 72: Consolidation analysis of soils by
elasto-plastic constitutive models; 73: Deformation of a sedimentary
overburden on a slowly creeping substratum; 74: Evaluation of a
quasi-dynamic algorithm for soil consolidation problems; 75: Consolidation
of layered soils under time-dependent loading; 76: Constitutive modelling
for anisotropically overconsolidated clay; 77: Pore pressure built up as a
result of wave action; 78: Modelling thermal, three-dimensional,
three-phase flow in a deforming soil; 79: Finite difference analysis of
consolidation by vertical drains with well resistance; 80: Interpretation
of concrete top base foundation behaviour on soft ground by coupled stress
flow finite element analysis; 81: On the determination of the matrix of
permeability for partially saturated finite elements; 82: Imperfect
underground barriers under transient seepage conditions; 83: Prediction of
consolidation of elastoplastic subsoils; 84: Effects of test procedure on
constant rate of strain pressuremeter tests in clay; 85: Analytical
procedure for evaluating pore-water pressure and deformation of saturated
clay ground subjected to traffic loads; 86: Partial-drained behaviour of
clay under cyclic loading; 87: Consolidation settlements of interacting
structural foundations; 88: Undrained Bearing Capacity of Anisotropically
Consolidated Clay; 89: Three-dimensional bearing capacity analysis of clays
under partially drained condition; 90: The effect of anisotropy on
consolidation in a soil layer; 91: Flow analysis of clay layer due to berth
construction
Main lectures; 1: Behavior and simulation of soil tunnel with thin cover;
2: Progress in BEM applications in geomechanics via examples; 3:
Application of analytic and semi-analytic techniques to geotechnical
analysis; 4: Incrementally multi-linear and non-linear constitutive
relations: A comparative study for practical use; 5: Unified approach for
constitutive modelling for geologic materials and discontinuities; 6:
Dynamic nonlinear hysteretic effective stress analysis in geotechnical
engineering; 7: Some numerical techniques for free-surface seepage
analysis; 8: Numerical methods versus statistical safety in geomechanics;
9: Simulation of hydraulic fracture in poroelastic rock; 10: A modelling of
jointed rock mass; 11: Some recent developments in interactive computer
graphics for 3-D nonlinear geotechnical FEM analysis; 12: Static and
dynamic approaches to rock burst phenomena; 13: Two 'Class A' predictions
of offshore foundation performance; 14: Numerical modelling of tunnel
blasting; 15: Stability and bifurcation in geomechanics; 16: Simple models
for soil behaviour and applications to problems of soil liquefaction; 1:
Numerical techniques and programming; 17: Experiences with the analysis of
geotechnical problems solved by the FEM using different equation solvers on
several computers; 18: Some computational experiences of a geomechanical
benchmark in rock salt; 19: Improved algorithm for non-linear analysis by
the finite element method; 20: A unified approach to the analysis of
saturated-unsaturated elastoplastic porous media; 21: Uni-axial wave
propagation through fluid-saturated elastic soil layer; 22: Formulations
and a methodology for computing the response of unsaturated soils to
changes in temperature; 23: Several aspects of formation of structures of
computer programs, selection and algorithmization of medium models in
geomechanics; 24: A boundary integral code based on a variational
formulation; 25: The use of Lees' algorithm in the analysis of some ground
heat and mass transfer problems; 26: Hybrid finite element model utilized
for fracture of concrete beams on elastic foundations; 27: Limit analysis
of plane problems in soil mechanics; 28: Displacement discontinuities and
interactive graphics for three-dimensional, hydraulic fracturing
simulators; 29: Stress analysis of large structures in hydraulic
engineering by weighted residuals method; 30: An automatic soil parameters
identification software; 2: Constitutive laws of geotechnical materials;
31: Generalized constitutive equations of saturated sand; 32: A cyclic
viscoplastic constitutive model for clay; 33: Coupled elasto-plastic
deformation-flow finite element analysis using imaginary viscosity
procedure; 34: Strength behavior of granular materials using discrete
numerical modelling; 35: A complete constitutive law for soil structure
interfaces; 36: Numerical investigations on discharging silos; 37: A
generalization of Hvorslev's equivalent stress; 38: Incremental theory of
elasticity and plasticity under cyclic loading; 39: Numerical simulation of
the behaviour of saturated sand; 40: A constitutive model of soils for
evaluating principal stress rotation; 41: Assessment of a new class of
implicit integration schemes for a cone-cap plasticity model; 42: Model and
parameters for the elastic behaviour of soils; 43: Discontinuous numerical
model for partially saturated soils at low saturation; 44: Modelling the
development of rupture surfaces using displacement-type finite element
methods; 45: Constitutive subroutine to simulate alternating loading of
granular materials; 46: Constitutive equation of tertiary sedimentary
mudstone considering strain hardening and strain softening; 47: Theoretical
evaluation of the frictional damping of rocks; 48: Analysis of the cone
penetration test by the strain path method; 49: Constitutive laws including
kinematic hardening for clay with pore water pressure and for sand; 50: An
anisotropic hardening model for the mechanical behaviour of clay; 51:
Three-dimensional shearing deformation of sand; 52: Model of sand behaviour
towards shearing and compressibility in three-dimensional conditions of
stress and strain; 53: Elasto-plastic anisotropic hardening model for sand
in a wide stress region; 54: Cap parameters for clayey soils; 55: A
constitutive model with two yield surfaces for soils; 56: Verification of
elasto-viscoplastic model of normally consolidated clays in undrained
creep; 57: A solution method for continua with continuously varying
stiffnesses; 58: Mathematically consistent formulation of elastoplastic
constitutive equations; 59: On errors involved in the
experimental-numerical investigation in triaxial compression tests; 60:
Non-associated flow rules in computational plasticity; 61: Constitutive
relations with general Masing rule under multi-dimensional stress
condition; 62: Some constitutive laws for creeping soil and for
rate-dependent sliding at interfaces; 63: Model with multiple mechanisms
for anisotropic behaviours of sands; 64: On the constitutive equations of
the chalk; 65: Mathematical modelling and prognose dimensions of karst
sinkholes in multilayered soil bases of buildings and structures; 66: A
model for predicting the viscoplastic stress-strain behaviour of clay in
three-dimensional stresses; 67: Effect of soil strength on numerical
simulation; 68: Constitutive models constrained by the entropy maximum
principle; 69: Geomechanical applications of fully coupled, transient
thermoelasticity; 3: 3 Flow and consolidation; 70: Numerical analysis of
soil stability around deep wellbores; 71: Numerical investigation of
hydraulic fracturing in clays; 72: Consolidation analysis of soils by
elasto-plastic constitutive models; 73: Deformation of a sedimentary
overburden on a slowly creeping substratum; 74: Evaluation of a
quasi-dynamic algorithm for soil consolidation problems; 75: Consolidation
of layered soils under time-dependent loading; 76: Constitutive modelling
for anisotropically overconsolidated clay; 77: Pore pressure built up as a
result of wave action; 78: Modelling thermal, three-dimensional,
three-phase flow in a deforming soil; 79: Finite difference analysis of
consolidation by vertical drains with well resistance; 80: Interpretation
of concrete top base foundation behaviour on soft ground by coupled stress
flow finite element analysis; 81: On the determination of the matrix of
permeability for partially saturated finite elements; 82: Imperfect
underground barriers under transient seepage conditions; 83: Prediction of
consolidation of elastoplastic subsoils; 84: Effects of test procedure on
constant rate of strain pressuremeter tests in clay; 85: Analytical
procedure for evaluating pore-water pressure and deformation of saturated
clay ground subjected to traffic loads; 86: Partial-drained behaviour of
clay under cyclic loading; 87: Consolidation settlements of interacting
structural foundations; 88: Undrained Bearing Capacity of Anisotropically
Consolidated Clay; 89: Three-dimensional bearing capacity analysis of clays
under partially drained condition; 90: The effect of anisotropy on
consolidation in a soil layer; 91: Flow analysis of clay layer due to berth
construction
2: Progress in BEM applications in geomechanics via examples; 3:
Application of analytic and semi-analytic techniques to geotechnical
analysis; 4: Incrementally multi-linear and non-linear constitutive
relations: A comparative study for practical use; 5: Unified approach for
constitutive modelling for geologic materials and discontinuities; 6:
Dynamic nonlinear hysteretic effective stress analysis in geotechnical
engineering; 7: Some numerical techniques for free-surface seepage
analysis; 8: Numerical methods versus statistical safety in geomechanics;
9: Simulation of hydraulic fracture in poroelastic rock; 10: A modelling of
jointed rock mass; 11: Some recent developments in interactive computer
graphics for 3-D nonlinear geotechnical FEM analysis; 12: Static and
dynamic approaches to rock burst phenomena; 13: Two 'Class A' predictions
of offshore foundation performance; 14: Numerical modelling of tunnel
blasting; 15: Stability and bifurcation in geomechanics; 16: Simple models
for soil behaviour and applications to problems of soil liquefaction; 1:
Numerical techniques and programming; 17: Experiences with the analysis of
geotechnical problems solved by the FEM using different equation solvers on
several computers; 18: Some computational experiences of a geomechanical
benchmark in rock salt; 19: Improved algorithm for non-linear analysis by
the finite element method; 20: A unified approach to the analysis of
saturated-unsaturated elastoplastic porous media; 21: Uni-axial wave
propagation through fluid-saturated elastic soil layer; 22: Formulations
and a methodology for computing the response of unsaturated soils to
changes in temperature; 23: Several aspects of formation of structures of
computer programs, selection and algorithmization of medium models in
geomechanics; 24: A boundary integral code based on a variational
formulation; 25: The use of Lees' algorithm in the analysis of some ground
heat and mass transfer problems; 26: Hybrid finite element model utilized
for fracture of concrete beams on elastic foundations; 27: Limit analysis
of plane problems in soil mechanics; 28: Displacement discontinuities and
interactive graphics for three-dimensional, hydraulic fracturing
simulators; 29: Stress analysis of large structures in hydraulic
engineering by weighted residuals method; 30: An automatic soil parameters
identification software; 2: Constitutive laws of geotechnical materials;
31: Generalized constitutive equations of saturated sand; 32: A cyclic
viscoplastic constitutive model for clay; 33: Coupled elasto-plastic
deformation-flow finite element analysis using imaginary viscosity
procedure; 34: Strength behavior of granular materials using discrete
numerical modelling; 35: A complete constitutive law for soil structure
interfaces; 36: Numerical investigations on discharging silos; 37: A
generalization of Hvorslev's equivalent stress; 38: Incremental theory of
elasticity and plasticity under cyclic loading; 39: Numerical simulation of
the behaviour of saturated sand; 40: A constitutive model of soils for
evaluating principal stress rotation; 41: Assessment of a new class of
implicit integration schemes for a cone-cap plasticity model; 42: Model and
parameters for the elastic behaviour of soils; 43: Discontinuous numerical
model for partially saturated soils at low saturation; 44: Modelling the
development of rupture surfaces using displacement-type finite element
methods; 45: Constitutive subroutine to simulate alternating loading of
granular materials; 46: Constitutive equation of tertiary sedimentary
mudstone considering strain hardening and strain softening; 47: Theoretical
evaluation of the frictional damping of rocks; 48: Analysis of the cone
penetration test by the strain path method; 49: Constitutive laws including
kinematic hardening for clay with pore water pressure and for sand; 50: An
anisotropic hardening model for the mechanical behaviour of clay; 51:
Three-dimensional shearing deformation of sand; 52: Model of sand behaviour
towards shearing and compressibility in three-dimensional conditions of
stress and strain; 53: Elasto-plastic anisotropic hardening model for sand
in a wide stress region; 54: Cap parameters for clayey soils; 55: A
constitutive model with two yield surfaces for soils; 56: Verification of
elasto-viscoplastic model of normally consolidated clays in undrained
creep; 57: A solution method for continua with continuously varying
stiffnesses; 58: Mathematically consistent formulation of elastoplastic
constitutive equations; 59: On errors involved in the
experimental-numerical investigation in triaxial compression tests; 60:
Non-associated flow rules in computational plasticity; 61: Constitutive
relations with general Masing rule under multi-dimensional stress
condition; 62: Some constitutive laws for creeping soil and for
rate-dependent sliding at interfaces; 63: Model with multiple mechanisms
for anisotropic behaviours of sands; 64: On the constitutive equations of
the chalk; 65: Mathematical modelling and prognose dimensions of karst
sinkholes in multilayered soil bases of buildings and structures; 66: A
model for predicting the viscoplastic stress-strain behaviour of clay in
three-dimensional stresses; 67: Effect of soil strength on numerical
simulation; 68: Constitutive models constrained by the entropy maximum
principle; 69: Geomechanical applications of fully coupled, transient
thermoelasticity; 3: 3 Flow and consolidation; 70: Numerical analysis of
soil stability around deep wellbores; 71: Numerical investigation of
hydraulic fracturing in clays; 72: Consolidation analysis of soils by
elasto-plastic constitutive models; 73: Deformation of a sedimentary
overburden on a slowly creeping substratum; 74: Evaluation of a
quasi-dynamic algorithm for soil consolidation problems; 75: Consolidation
of layered soils under time-dependent loading; 76: Constitutive modelling
for anisotropically overconsolidated clay; 77: Pore pressure built up as a
result of wave action; 78: Modelling thermal, three-dimensional,
three-phase flow in a deforming soil; 79: Finite difference analysis of
consolidation by vertical drains with well resistance; 80: Interpretation
of concrete top base foundation behaviour on soft ground by coupled stress
flow finite element analysis; 81: On the determination of the matrix of
permeability for partially saturated finite elements; 82: Imperfect
underground barriers under transient seepage conditions; 83: Prediction of
consolidation of elastoplastic subsoils; 84: Effects of test procedure on
constant rate of strain pressuremeter tests in clay; 85: Analytical
procedure for evaluating pore-water pressure and deformation of saturated
clay ground subjected to traffic loads; 86: Partial-drained behaviour of
clay under cyclic loading; 87: Consolidation settlements of interacting
structural foundations; 88: Undrained Bearing Capacity of Anisotropically
Consolidated Clay; 89: Three-dimensional bearing capacity analysis of clays
under partially drained condition; 90: The effect of anisotropy on
consolidation in a soil layer; 91: Flow analysis of clay layer due to berth
construction