材料热力学（英文版）

图书标准信息

• 作者 蒋青 著
• 出版社 高等教育出版社
• 出版时间 2011-01
• 版次 1
• ISBN 9787040296105
• 定价 59.00元
• 装帧 精装
• 开本 16开
• 纸张 胶版纸
• 页数 298000页
• 字数 300千字
• 正文语种 英语

【内容简介】

《材料热力学》将材料作为一个整体研究对象，内容涵盖金属、合金、陶瓷、半导体和高分子等所有材料领域的宏观、介观和微观热力学，注重通过材料问题实例来使读者理解和掌握热力学的基本规律。本书还以较大篇幅介绍了纳米热力学和界面热力学的最新进展，以及相关计算机模拟的最新贡献。《材料热力学》适用于所有材料相关领域的科研工作者、工程师和研究生。
作者蒋青博士与文子博士为吉林大学教授。

【目录】

Chapter1FundamentalsofThermodynamics
1.1ThermodynamicsofMaterialsScience，ScopeandSpecialFeaturesoftheBook
1.2ConceptsofThermodynamics
1.3TemperatureandZerothLawofThermodynamics
1.4FirstLawofThermodynamics
1.5EntropyandSecondLawofThermodynamics
1.6GeneralThermodynamicRelationships
1.7ThirdLawofThermodynamics
References

Chapter2StatisticalThermodynamics
2.1BasicConcepts
2.2ClassicalStatisticThermodynamicsofIndependentParticles
2.3EnergyModeandEnergyLevels
2.4Bose-EinsteinandFermi-DiracStatistics
2.5ApplicationofQuantumStatistics
2.5.1SpatialConfigurationofLongChainPolymers
2.5.2StatisticalThermodynamicsofaParamagneticCrystal
2.5.3NegativeTemperature
References

Chapter3HeatCapacity，Entropy，andNanothermodynamics
3.1HeatCapacity
3.1.1RelationsofPrincipalHeatCapacities
3.1.2MagneticHeatCapacity
3.1.3HeatCapacityofLatticeVibrationofSolids
3.1.4ElectronicHeatCapacityofMetals
3.2Entropy
3.2.1PositionalPartofMeltingEntropyandItsEvaluation
3.2.2ContributionofVibrationalPartofMeltingEntropyofSemiconductors
3.2.3ElectronicComponentofMeltingEntropy
3.3Nanothermodynamics
3.4MeltingThermodynamics
3.4.1AMeltingCriterion
3.4.2ExistingModelsforSize-dependentMeltingofCrystals
3.4.3Size-dependentMeltingThermodynamicsofCrystals
3.5CohesiveEnergy
3.5.1Size-dependentCohesiveEnergyofCrystals
3.5.2VacancyFormationEnergyandCohesiveEnergyofClusters
3.6SizeEffectonBandgapofII-VISemiconductorNanocrystals
References

Chapter4PhaseDiagrams
4.1GibbsPhaseRuleandPhaseDiagramofUnarySystem
4.2Clapeyron.EquationinCondensedStateEquilibria
4.3Solution，PartialMolarPropertiesandChemicalPotential
4.4GraphicalRepresentation，IdealandRegularSolutions
4.5EquilibriumConditionsofPhasesandPhaseDiagramofBinarySystems
4.5.1CompleteMiscibility，ContinuousBinarySolutionPhaseDiagramandRelatedSizeDependence
4.5.2Immiscibility-TwoMechanismsofPhaseTransitions
4.6OnApproximationofGibbsFreeEnergyChangeofCrystallization
4.7BandgapEnergyofBinaryNanosemiconductorAlloys
References

Chapter5ThermodynamicsofPhaseTransitions
5.1ThermodynamicClassificationofPhaseTransitions
5.2LandauandIsingModelsfortheSecond-orderPhaseTransitions
5.2.1LandauModel
5.2.2IsingModelanditsApplications
5.2.3CriticalExponent
5.3ThermodynamicsofMartensiticandBainiteTransitions
5.4GlassTransition
5.4.1FreezingintoSolidState：GlassFormationversusCrystallization
5.4.2CharacteristicPropertiesofGlassTransition
5.4.3SizeEffectonGlassTransition
5.5FerromagneticandAntiferromagneticPhaseTransitionsofNanocrystals
5.5.1Size-dependentOrderingTemperaturesofFerromagneticandAntiferromagneticNanocrystals
5.5.2ThermalStabilityinExchange-biasedFM/AFMBilayers
5.5.3FerroelectricPhaseTransitionofNanocrystals
5.5.4SuperconductivePhaseTransitionofNanocrystals
References

Chapter6ThermodynamicsofInterfaces
6.1PointDefectThermodynamics
6.2LineDefectsThermodynamics
6.3ThermodynamicsofInterfaces
6.3.1ThermodynamicDescriptionofSurfaceFreeEnergyofLiquidsandSolids
6.3.2ThermodynamicsofSurfaceStressandIntrinsicStress
6.3.3RealSurface：ReconstructionandRelaxation
6.3.4EquilibriumofFluidDropletsandSolidParticles
6.3.5WulffConstructionandAdsorptiononSolidSurfaces
6.4Solid-liquidInterfaceEnergy
6.4.1BulkSolid-liquidInterfaceEnergyandThatatMeltingPoints
6.4.2SizeDependenceofSolid-liquidInterfaceEnergy
6.4.3Nucleus-liquidInterfaceEnergy
6.5Solid-solidInterfaceEnergy
6.6Solid-vaporInterfaceEnergyorSurfaceEnergy
6.6.1BulkSurfaceEnergyofElementarySolids
6.6.2%v0ofSeveralCeramicswithNaC1Structure
6.6.3Size-dependentSurfaceEnergyofSolids
6.7Liquid-vaporInterfaceEnergyorSurfaceTension
6.7.1BulkSurfaceTensionandItsTemperatureCoefficient
6.7.2DeterminationofLv0（Tm）and/Lv0（Tm）ValuesandLv0（T）and/v0（T）Functions
6.7.3SizeDependenceofLiquid-vaporInterfaceEnergy
6.8ApplicationsofSize-dependentInterfaceEnergy
6.8.1ThermodynamicPhaseStabilityofNanocarbons
6.8.2StaticHysteresisofSolidTransitionofCdSeNanocrystals
6.8.3CriticalLayerNumberandCriticalMisfitofEpitaxia]GrownMetallicThinFilms
6.8.4ReconstructionPossibilityoffccMetallicSurfacesatRoomTemperature
References
Index