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压电与铁电体的断裂力学

作者: 方岱宁著 , 刘金喜著

出版社: 清华大学出版社

出版时间: 2012-10

版次: 1

ISBN: 9787302283638

定价: 128.00

装帧: 精装

开本: 16开

纸张: 胶版纸

页数: 416页

字数: 596千字

正文语种: 英语

分类: 工程技术

3 张插图图片

6人买过

　　《压电与铁电体的断裂力学》是关于压电／铁电材料断裂力学的专著，从理论分析、数值计算和实验观察三个方面比较全面、系统地阐述了压电／铁电材料的电致断裂问题，强调静态、动态和界面断裂问题的力学提法以及力电耦合效应所导致的电致断裂的物理本质。本书的主要特色是：从晶体学的角度简要介绍了压电／铁电材料的基本特征；详细描述了压电材料的基本方程以及与断裂问题相关的一般解；以图的形式提供了大量的数值结果；给出了主题词和作者索引；用简洁的语言解释了复杂的电致断裂问题。本书可帮助固体力学、材料科学、应用物理和机械工程领域的读者很容易地抓住问题的物理本质并把握压电／铁电材料断裂力学的研究现状。　　Dr.DainingFang，isaprofessofatehschoolofAerospace，TsinghuaUniversity，China.
　　
　　Dr.JinxiLiu，isaprofessofattheDepartmentofEngineeringMechanics，ShijiazhuangRailwayInstitute，China. Chapter1Introduction
1.1Backgroundoftheresearchonfracturemechanicsofpiezoelectric/ferroelectricmaterials
1.2Developmentcourseandtrend
1.3Frameworkofthebookandcontentarrangements
References

Chapter2PhysicalandMaterialPropertiesofDielectrics
2.1Basicconceptsofpiezoelectric/ferroelectricmaterials
2.2Crystalstructureofdielectric
2.3Propertiesofelectricpolarizationandpiezoelectricity
2.3.1Microscopicmechanismofpolarization
2.3.2Physicaldescriptionofelectricpolarization
2.3.3Dielectricconstanttensorofcrystalanditssymmetry
2.4Domainswitchofferroelectri
2.4.1Electricdomainanddomainstructure
2.4.2Switchingofelectricdomainandprinciplesfordomainswitch
References

Chapter3FractureofPiezoelectric/FerroelectricMaterialsExperimentsandResults
3.1Experimentalapproachesandtechniquesunderanelectromechanicalcouplingfield
3.1.1High-voltagepowersupply
3.1.2Highvoltageinsulation
3.1.3Moireinterferometry
3.1.4Digitalspecklecorrelationmethod
3.1.5Methodofpolarizedmicroscope
3.1.6Experimentalfacilities
3.2Anisotropyoffracturetoughness
3.3Electricfieldeffectonfracturetoughness
3.4Fracturebehaviorofferroelectricnanocomposites
3.5Measurementofstrainfieldnearelectrodeindouble-layerstructureofpiezoelectricceramics
3.6Observationofcracktypesnearelectrodetip
3.7Experimentalresultsandanalysisrelatedtoferroelectricsinglecrystalout-of-planepolarized
3.7.1Restorabledomainswitchatcracktipdrivenbylowelectricfield
3.7.2Cyclicdomainswitchdrivenbycyclicelectricfield
3.7.3Electriccrackpropagationandevolutionofcracktipelectricdomain
3.8Experimentalresultsandanalysisconcerningin-planepolarizedferroelectricsinglecrytal
3.8.1Responseofspecimenunderapositiveelectricfield
3.8.2Cracktipdomainswitchunderlownegativeelectricfield
3.8.3Domainswitchingzonenearcracktipundernegativefield
3.8.4Evolutionofelectricdomainnearcracktipunderalternatingelectricfield
References

Chapter4BasicEquationsofPiezoelectricMaterials
4.1Basicequations
4.1.1Piezoelectricequations
4.1.2Gradientequationsandbalanceequations
4.2Constraintrelationsbetweenvariouselectroelasticconstants
4.3Electroelasticconstantsofpiezoelectricmaterials
4.3.1Coordinatetransformationbetweenvectorandtensorofthesecondorder
4.3.2Coordinatetransformationofelectroelasticconstants
4.3.3Electroelasticconstantmatrixesofpiezoelectriccrystalsvestedin20kindsofpointgroups
4.4Governingdifferentialequationsandboundaryconditionsofelectromechanicalcouplingproblems
4.4.1Governingdifferentialequationsofelectromechanicalcouplingproblems
4.4.2Boundaryconditionsofelectromechanicalcoupling
References

Chapter5GeneralSolutionstoElectromechanicalCouplingProblemsofPiezoelectricMaterials
5.1ExtendedStrohformalismforpiezoelectricity
5.1.1ExtendedStrohformalism
5.1.2MathematicalpropertiesandimportantrelationsofStrohformalism
5.2Lekhniskiiformalismforpiezoele
5.3Generalsolutionstotwo-dimensionalproblemsoftransverselyisotropicpiezoelectricmaterials
……
Chapter6FractureMechanicsofHomogeneousPiezoelectricMaterials
Chapter7InterfaceFractureMechanicsofPiezoelectricMaterials
Chapter8DynamicFractureMechanicsofPiezoelectricMaterials
Chapter9NonlinearFractureMechanicsofFerroelectricMaterials
Chapter10FractureCriteria
Chapter11Electro-elasticConcentrationsInducedbyElectrodesinPiezoelectricMaterials
Chapter12Electric-InducedFatigueFracture
Chapter13NumericaIMethodforAnalyzingFractureofPiezoelectricandFerroelectricMaterials
AppendixTheMaterialConstantsofPiezoelectricCeramics
内容简介:
　　《压电与铁电体的断裂力学》是关于压电／铁电材料断裂力学的专著，从理论分析、数值计算和实验观察三个方面比较全面、系统地阐述了压电／铁电材料的电致断裂问题，强调静态、动态和界面断裂问题的力学提法以及力电耦合效应所导致的电致断裂的物理本质。本书的主要特色是：从晶体学的角度简要介绍了压电／铁电材料的基本特征；详细描述了压电材料的基本方程以及与断裂问题相关的一般解；以图的形式提供了大量的数值结果；给出了主题词和作者索引；用简洁的语言解释了复杂的电致断裂问题。本书可帮助固体力学、材料科学、应用物理和机械工程领域的读者很容易地抓住问题的物理本质并把握压电／铁电材料断裂力学的研究现状。
作者简介:
　　Dr.DainingFang，isaprofessofatehschoolofAerospace，TsinghuaUniversity，China.
　　
　　Dr.JinxiLiu，isaprofessofattheDepartmentofEngineeringMechanics，ShijiazhuangRailwayInstitute，China.
目录:
Chapter1Introduction
1.1Backgroundoftheresearchonfracturemechanicsofpiezoelectric/ferroelectricmaterials
1.2Developmentcourseandtrend
1.3Frameworkofthebookandcontentarrangements
References

Chapter2PhysicalandMaterialPropertiesofDielectrics
2.1Basicconceptsofpiezoelectric/ferroelectricmaterials
2.2Crystalstructureofdielectric
2.3Propertiesofelectricpolarizationandpiezoelectricity
2.3.1Microscopicmechanismofpolarization
2.3.2Physicaldescriptionofelectricpolarization
2.3.3Dielectricconstanttensorofcrystalanditssymmetry
2.4Domainswitchofferroelectri
2.4.1Electricdomainanddomainstructure
2.4.2Switchingofelectricdomainandprinciplesfordomainswitch
References

Chapter3FractureofPiezoelectric/FerroelectricMaterialsExperimentsandResults
3.1Experimentalapproachesandtechniquesunderanelectromechanicalcouplingfield
3.1.1High-voltagepowersupply
3.1.2Highvoltageinsulation
3.1.3Moireinterferometry
3.1.4Digitalspecklecorrelationmethod
3.1.5Methodofpolarizedmicroscope
3.1.6Experimentalfacilities
3.2Anisotropyoffracturetoughness
3.3Electricfieldeffectonfracturetoughness
3.4Fracturebehaviorofferroelectricnanocomposites
3.5Measurementofstrainfieldnearelectrodeindouble-layerstructureofpiezoelectricceramics
3.6Observationofcracktypesnearelectrodetip
3.7Experimentalresultsandanalysisrelatedtoferroelectricsinglecrystalout-of-planepolarized
3.7.1Restorabledomainswitchatcracktipdrivenbylowelectricfield
3.7.2Cyclicdomainswitchdrivenbycyclicelectricfield
3.7.3Electriccrackpropagationandevolutionofcracktipelectricdomain
3.8Experimentalresultsandanalysisconcerningin-planepolarizedferroelectricsinglecrytal
3.8.1Responseofspecimenunderapositiveelectricfield
3.8.2Cracktipdomainswitchunderlownegativeelectricfield
3.8.3Domainswitchingzonenearcracktipundernegativefield
3.8.4Evolutionofelectricdomainnearcracktipunderalternatingelectricfield
References

Chapter4BasicEquationsofPiezoelectricMaterials
4.1Basicequations
4.1.1Piezoelectricequations
4.1.2Gradientequationsandbalanceequations
4.2Constraintrelationsbetweenvariouselectroelasticconstants
4.3Electroelasticconstantsofpiezoelectricmaterials
4.3.1Coordinatetransformationbetweenvectorandtensorofthesecondorder
4.3.2Coordinatetransformationofelectroelasticconstants
4.3.3Electroelasticconstantmatrixesofpiezoelectriccrystalsvestedin20kindsofpointgroups
4.4Governingdifferentialequationsandboundaryconditionsofelectromechanicalcouplingproblems
4.4.1Governingdifferentialequationsofelectromechanicalcouplingproblems
4.4.2Boundaryconditionsofelectromechanicalcoupling
References

Chapter5GeneralSolutionstoElectromechanicalCouplingProblemsofPiezoelectricMaterials
5.1ExtendedStrohformalismforpiezoelectricity
5.1.1ExtendedStrohformalism
5.1.2MathematicalpropertiesandimportantrelationsofStrohformalism
5.2Lekhniskiiformalismforpiezoele
5.3Generalsolutionstotwo-dimensionalproblemsoftransverselyisotropicpiezoelectricmaterials
……
Chapter6FractureMechanicsofHomogeneousPiezoelectricMaterials
Chapter7InterfaceFractureMechanicsofPiezoelectricMaterials
Chapter8DynamicFractureMechanicsofPiezoelectricMaterials
Chapter9NonlinearFractureMechanicsofFerroelectricMaterials
Chapter10FractureCriteria
Chapter11Electro-elasticConcentrationsInducedbyElectrodesinPiezoelectricMaterials
Chapter12Electric-InducedFatigueFracture
Chapter13NumericaIMethodforAnalyzingFractureofPiezoelectricandFerroelectricMaterials
AppendixTheMaterialConstantsofPiezoelectricCeramics

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压电与铁电体的断裂力学

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