海洋结构物疲劳寿命预报的统一方法
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九五品
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作者 崔维成、黄小平、王芳 著
出版社 浙江大学出版社
出版时间 2013-11
版次 1
装帧 精装
货号 d1
上书时间 2024-01-29
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图书标准信息
作者
崔维成、黄小平、王芳 著
出版社
浙江大学出版社
出版时间
2013-11
版次
1
ISBN
9787308104500
定价
150.00元
装帧
精装
开本
16开
纸张
胶版纸
页数
281页
字数
559千字
正文语种
英语
【内容简介】
Inordertoapplythedamagetolerancedesignphilosophytodesignmarinestructures,accuratepredictionoffatiguecrackgrowthunderserviceconditionsisrequired.Now,moreandmorepeoplehaverealizedthatonlyafatiguelifepredictionmethodbasedonfatiguecrackpropagation(FCP)theoryhasthepotentialtoexplainvariousfatiguephenomenaobserved.Inthisbook,theissuesleadingtowardsthedevelopmentofaunifiedfatiguelifeprediction(UFLP)methodbasedonFCPtheoryareaddressed.BasedonthephilosophyoftheUFLPmethod,thecurrentinconsistencybetweenfatiguedesignandinspectionofmarinestructurescouldberesolved. Thisbookpresentsthestate-of-the-artandrecentadvances,includingthosebytheauthors,infatiguestudies.Itisdesignedtoleadthefuturedirectionsandtoprovideausefultoolinmanypracticalapplications.Itisintendedtoaddresstoengineers,navalarchitects,researchstaff,professionalsandgraduatesengagedinfatiguepreventiondesignandsurveyofmarinestructures,infatiguestudiesofmaterialsandstructures,inexperimentallaboratoryresearch,inplanningtherepairandmaintenanceofexistingstructures,andinruledevelopment.Thebookisalsoaneffectweeducationalaidinnavalarchitecture,marine,civilandmechanicalengineering.
【作者简介】
Prof. Weicheng Cui is the Dean of Hadal Science and Technology Research Center of Shanghai Ocean University, China. Dr. Xiaoping Huang is an associate professor of School of Naval Architecture, Ocean and Civil Engineering of Shanghai Jiao Tong University, China. Dr. Fang Wang is an associate professor of Hadal Science and Technology Research Center of Shanghai Ocean University, China.
【目录】
1Introduction 1.1FatigueProblemsinMarineStructures 1.2CurrentPracticesofFatigueStrengthAssessmentsandTheirDeficiencies 1.3HistoricalOverviewofMetalFatigue 1.4FLPMethods 1.4.1CFDTheories 1.4.2FCPTheories 1.5TheLayoutoftheBook References 2CurrentUnderstandingofFatigueMechanismsofMetals 2.1Introduction 2.2DifferentPhasesoftheFatigueLife 2.3CrackInitiationMechanismsforDifferentMetals 2.3.1DefinitionofaCrackInitiation 2.3.2FatigueCrackInitiationinSlipBands 2.3.3CrackInitiationAlongtheGrainBoundary(GB) 2.3.4CrackInitiationatInclusions 2.3.5SlipBandandDislocationinSingleCrystalMetal 2.3.6SlipBandandDislocationinPolycrystalMetal 2.3.7FatigueMechanismofUltrafine-GrainedMaterials 2.4FCPMechanisms 2.4.1StageⅠFCP 2.4.2StageⅡCrackGrowthandFatigueStriation 2.5SomeImportantIssuesinCrackGrowth 2.5.1ShortCrack 2.5.2CrackClosure. 2.5.3EffectofLoadingSequence 2.5.4SurfaceEffects 2.5.5EnvironmentalEffects 2.6FatigueCrackGrowthMechanismofSmallDefects 2.6.1EngineeringInitialCrackSizeofStructures 2.6.2DefinitionofShortCrackandLongCrack 2.6.3CrackGrowthThresholdandIntrinsicCrackLength 2.6.4EquivalentCrackLengthforShortandLongCrack 2.7Summary References 3CurrentState-of-the-ArtofUFLP 3.1Introduction 3.2UnifiedApproachforThreeRegionsofFCP 3.3UnifiedApproachtotheStressRatioEffectorMeanStressEffect 3.4UnifiedApproachforLong-andPhysicallyShort-CrackGrowth 3.5UnifiedApproachforInitiationandPropagation 3.6UnifiedApproachforHighandLowCycleFatigue 3.7UnifiedApproachforFatigueandCreep 3.8BasicIdeasofOurUFLPMethod 3.9Summary References 4BasicConceptsofFractureMechanics 4.1Introduction 4.2TypesofCracks 4.3TypesofOpeningModesforaCrackedBody 4.4SIFs 4.4.1Definition 4.4.2CalculationMethodsofSIFs 4.4.3TypicalExamplesofSIFs 4.4.4PlasticityLimitationsoftheSIFsBasedonLEFM 4.4.5ExtensionsoftheSIFsBasedonLEFM 4.5FractureToughness 4.5.1Definition 4.5.2Testing 4.5.3Trends 4.6CrackTipPlasticity 4.6.1PlasticZoneforPlaneStress 4.6.2PlasticZoneforPlaneStrain 4.6.3PlasticZoneUnderRealStressState 4.7Summary References 5DevelopmentofaUFLPMethodforMarineStructures 6DescriptionofFatigueLoading 7SomeApplicationsandDemonstrationsofUFLP 8CodeDevelopmentBasedonUFLPforMarineStructures
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