土体的流变特性与弹粘塑性模拟(英文版)
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作者朱俊高 著
出版社科学出版社
出版时间2009-01
版次1
装帧平装
货号306
上书时间2024-09-24
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图书标准信息
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作者
朱俊高 著
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出版社
科学出版社
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出版时间
2009-01
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版次
1
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ISBN
9787030189400
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定价
100.00元
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装帧
平装
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开本
16开
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纸张
胶版纸
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页数
244页
- 【内容简介】
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《土体的流变特性与弹粘塑性模拟(英文版)》是一部反映土体流变领域部分研究成果和发展概况的专著。PrefaceChapter1Introduction1.1SoilRheology1.2BackgroudofPresentResearch1.3ImportanceofViscousEffectsinEngineeringPractice1.4ObjectiveofPresentStudy1.5Outline。
- 【目录】
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Preface
Chapter1Introduction
1.1SoilRheology
1.2BackgroundofPresentResearch
1.3ImportanceofViscousEffectsinEngineeringPractice
1.4ObjectiveofPresentStudy
1.5OutlineofThisBook
Chapter2ReviewofLiterature
2.1TwoHypothesesonCreepDefromation
2.2Strain-RateEffects
2.2.1Strain-rateEffectsinOedometerTests
2.2.2Strain-rateEffectsinUndrainedTriaxialTests
2.3CreepBehaviour
2.3.1UndrainedCreep
2.3.2DrainedCreep
2.4StressRelaxation
2.5InfluenceofTemperatureonViscosityofSoil
2.6ModellingofStress-strain-timeBehaviourofClay
2.6.1MicromechanicalApproach
2.6.2EmpiricalApproach
2.6.3ViscoelasticApproach
2.6.4ViscoplasticApproach
2.7ViscousEffectsinSand
Chapter3Apparatus,TestingTechniquesandSoil
3.1Introduction
3.2TestingApparatus
3.2.1GDSTriaxialTestingSystem
3.2.2WykehamFarranceTriaxialTestingSystem
3.2.3StressControlledTriaxialTestingSystem
3.2.4GDSPressure/VolumeController
3.3TestingTechniques
3.4PreparationofSamplesofHKMD
3.5PhysicalPropertiesofRHKMD
3.6MechanicalParametersofRHKMD
3.6.1Multi-stageOedometerConsolidationTestofRHKMD
3.6.2IsotropicConsolidationTestofRHKMD
3.6.3ConventionalUndrainedTriaxialTestofRHKMD
3.6.4ConventionalDrainedTriaxialTestofRHKMD
Chapter4InvestigationofStrain-RateEffects
4.1Introduction
4.2ExperimentalProgram
4.2.1TestProgramofIsotropicallyConsolidatedSpecimens
4.2.2TestProgramofK0-consolidatedSpecimens
4.2.3ProgramofStep-changedConstantStrainRateTestsCombinedwithRelaxation
4.3TestResultsofIsotropicallyConsolidatedSpecimens
4.3.1TestsofOCR=1
4.3.2TestsofOCR=2
4.3.3TestsofOCR=4
4.3.4TestsofOCR=8
4.4AnalysisofTestResultsofIsotropicallyConsolidatedSpecimens
4.4.1UndrainedShearStrength
4.4.2PorewaterPressureandStressPath
4.4.3SecantYoung'sModulus
4.5TestsofK0-ConsolidatedSpecimens
4.5.1ResultsofCK0UTests
4.5.2DiscussiononResultsofCK0USeriesTests
4.6Step-ChangedConstantStrainRateTestsCombinedWithRelaxation
4.6.1Step-changedConstantStrainRateTestinCompression
4.6.2Step-changedConstantStrainRateTestinExtension
4.7FailureModeofSpecimensShearedatVariourStrainRates
4.8SummaryandConclusions
Chapter5CreepBehaviourofRHKMDinTriaxialTests
5.1TestingProgram
5.1.1ProgramofSingle-stagedCreepTests
5.1.2ProgramofMulti-stagedCreepTests
5.1.3ProgramofDrainedCreepTests
5.2Single-StagedCreepTests
5.3Multi-StagedCreepTests
5.3.1CompressionCreepTest
5.3.2ExtensionCreepTest
5.3.3Multi-stagedCreepBehaviour
5.4DrainedCreepTests
5.4.1TestResults
5.4.2DevelopmentofDeviatorStrainwithTime
5.4.3DevelopmentofVolumetricStrainwithTime
5.5SummaryandConclusions
Chapter6BehaviourofStressRelaxation
6.1Introduction
6.2BehaviourofStressRelaxation
6.2.1StressRelaxationTestsafterDeviatorStressReachesaPeakValue(orFailure)
6.2.2Multi-StagedStressRelaxationTestsunderExtensionStates
6.3Summary
Chapter7AnElasticViscoplasticModelanditsVerifation
7.1Introduction
7.1.1Bjerrum'sTimeLineModel
7.1.2Yin-Graham's1-DEVPModel
7.2ElasticViscoplasticRelationshipforIsotropicStressState
7.2.1InstantTimeLine
7.2.2EquivalentTime,ReferenceTimeLineandTimeLines
7.2.3CreepCompressionStrain
7.2.4NecessityofReferenceTimeLineandEquivalentTime
7.2.5GeneralConstitutiveRelationshipforIsotropicStressCondition
7.2.6DeterminationofReferenceTimeLineandParameters:ApproachI
7.2.7DeterminationofReferenceTimeLineandParameters:ApproachII
7.2.8ValidationoftheTwoApproachesforDeterminingModelParameters
7.3Formulationof3-DElasticViscoplasticModel
7.4VerificationofThe3-DEVPModel
7.4.1Step-changedConstantStrainRateTriaxialTestwithStressRelaxation
7.4.2UndrainedTriaxialShearTestsunderVariousConstantStrainRates
7.5Summary
Chapter8EVPModelApplicationI:ModellinganIdealFoundationonHKMD
8.1Introduction
8.2FiniteElementScheme
8.2.1NumericalAlgorithmforSolutionofFiniteElement
8.2.2FiniteDifferenceSchemeforComputingεvm
8.3ValidationoftheFEProgram
8.3.1CaseI:SettlementofaFiniteLayer
8.3.2CaseII:PorewaterPressureinSemi-infiniteSpace
8.4SimulationofConsolidationofaFoundationClay
8.4.1EVPModelParametersandFEBoundaryConditions
8.4.2ExaminationofMandel-CryerEffectandViscousEffects
8.4.3InfluenceofCreepParameterψ/V(Case1)
8.4.4DistributionofPorewaterPressureandDeformationwithTime
8.4.5InfluenceofPermeability(Case2)
8.4.6Influenceofh/aonPorewaterPressureandDeformation(Case3)
8.4.7InfluenceofThicknessofSoilLayer(Case4)
8.5SummaryandConclusions
Chapter9EVPModelApplicationII:SimulationofPorewaterpressureinClayUnderneathTarsiutIsland
9.1Introduction
9.2ConsolidationModellingofSoilsBeneathTarsiutIsland
9.3FiniteElementResultsandDiscussion
9.4Summary
Chapter10AnExtended3-DEVPModelandItsVerification
10.1Introduction
10.2Extended3-DEVPModel
10.2.1ConstitutiveRelationshipforIsotropicStressCondition
10.2.2DeterminationofParameters
10.2.3ShapeFunctionofFlowSurfaceonπ-Plane
10.2.4ConstitutiveRelationshipofExtended3-DEVPModel
10.3VerificationofExtended3-DEVPModel
10.3.1SimulationofUndrainedTriaxialTestsShearedatDifferentStrainRates
10.3.2SimulationofUndrainedTriaxialTestsonOverconsolidatedSoils
10.3.3SimulationofUndrainedTriaxialCreepTests
10.4SummaryandConclusions
Chapter11SimulationofConsolidationBehaviourofaTestEmbankment
11.1Introduction
11.2SiteInvestigation
11.2.1SoilConditions
11.2.2SoilTesting
11.3ConstructionLoadingandInstrumentation
11.4ModelParametersandBoundaryConditions
11.5CharacteristicsofVerticalDrain
11.6ModellingResultsandDiscussions
11.7Summary
Chapter12Frameworkofa3-DEVPModelforAnisotropicallyConsolidatedClay
12.1Introduction
12.2A3-DEVPModelforAnisotropicallyConsolidatedClay
12.2.1MathematicalFunctionofFlowSurface
12.2.2ConstitutiveRelationshipoftheAnisotropicEVPModel
12.3BriefVerificationoftheAnisotropicEVPModel
12.4Summary
References
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