相平衡、相图和相变:其热力学基础(第二版)(英文影印版)

相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
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作者: [瑞典] (M. Hillert)
2014-10
版次: 1
ISBN: 9787301245552
定价: 89.00
装帧: 平装
开本: 16开
纸张: 胶版纸
页数: 528页
字数: 629千字
分类: 自然科学
  •   《相平衡、相图和相变——其热力学基础(第二版)(英文影印版)》主要内容为现代计算机应用观点下的热力学基本原理。化学平衡和化学变化的理论基础也是本书的内容之一,其重点在于相图的性质。本书从基本原理出发,讨论延及多相的系统。第二版新增加的内容包括不可逆热力学、极值原理和表面、界面热力学等等。平衡条件的理论刻画、系统的平衡状态和达到平衡时的变化都以图解的形式给出。
      《相平衡、相图和相变——其热力学基础(第二版)(英文影印版)》适合材料科学与工程领域的研究人员、研究生和高年级本科生阅读。
      (瑞典)希勒特(M.Hillert),瑞典皇家工学院教授。 Prefacetosecondeditionpagexii
    Prefacetofirsteditionxiii
    1Basicconceptsofthermodynamics1
    1.1Externalstatevariables1
    1.2Internalstatevariables3
    1.3Thefirstlawofthermodynamics5
    1.4Freezing-inconditions9
    1.5Reversibleandirreversibleprocesses10
    1.6Secondlawofthermodynamics13
    1.7Conditionofinternalequilibrium17
    1.8Drivingforce19
    1.9Combinedfirstandsecondlaw21
    1.10Generalconditionsofequilibrium23
    1.11Characteristicstatefunctions24
    1.12Entropy26
    2Manipulationofthermodynamicquantities30
    2.1Evaluationofonecharacteristicstatefunctionfromanother30
    2.2Internalvariablesatequilibrium31
    2.3Equationsofstate33
    2.4Experimentalconditions34
    2.5Notationforpartialderivatives37
    2.6Useofvariousderivatives38
    2.7ComparisonbetweenCVandCP40
    2.8Changeofindependentvariables41
    2.9Maxwellrelations43
    3Systemswithvariablecomposition45
    3.1Chemicalpotential45
    3.2Molarandintegralquantities46
    3.3Moreaboutcharacteristicstatefunctions48
    3.4Additivityofextensivequantities.Freeenergyandexergy51
    3.5Variousformsofthecombinedlaw52
    3.6Calculationofequilibrium54
    3.7Evaluationofthedrivingforce56
    3.8Drivingforceformolecularreactions58
    3.9Evaluationofintegrateddrivingforceasfunctionof
    TorP59
    3.10Effectivedrivingforce60
    4Practicalhandlingofmulticomponentsystems63
    4.1Partialquantities63
    4.2Relationsforpartialquantities65
    4.3Alternativevariablesforcomposition67
    4.4Theleverrule70
    4.5Thetie-linerule71
    4.6Differentsetsofcomponents74
    4.7Constitutionandconstituents75
    4.8Chemicalpotentialsinaphasewithsublattices77
    5Thermodynamicsofprocesses80
    5.1Thermodynamictreatmentofkineticsof
    internalprocesses80
    5.2Transformationofthesetofprocesses83
    5.3Alternativemethodsoftransformation85
    5.4Basicthermodynamicconsiderationsforprocesses89
    5.5Homogeneouschemicalreactions92
    5.6Transportprocessesindiscontinuoussystems95
    5.7Transportprocessesincontinuoussystems98
    5.8Substitutionaldiffusion101
    5.9Onsager’sextremumprinciple104
    6Stability108
    6.1Introduction108
    6.2Somenecessaryconditionsofstability110
    6.3Sufficientconditionsofstability113
    6.4Summaryofstabilityconditions115
    6.5Limitofstability116
    6.6Limitofstabilityagainstfluctuationsincomposition117
    6.7Chemicalcapacitance120
    6.8Limitofstabilityagainstfluctuationsof
    internalvariables121
    6.9LeChatelier’sprinciple123
    7ApplicationsofmolarGibbsenergydiagrams126
    7.1MolarGibbsenergydiagramsforbinarysystems126
    7.2Instabilityofbinarysolutions131
    7.3IllustrationoftheGibbs–Duhemrelation132
    7.4Two-phaseequilibriainbinarysystems135
    7.5Allotropicphaseboundaries137
    7.6Effectofapressuredifferenceonatwo-phase
    equilibrium138
    7.7Drivingforcefortheformationofanewphase142
    7.8Partitionlesstransformationunderlocalequilibrium144
    7.9Activationenergyforafluctuation147
    7.10Ternarysystems149
    7.11Solubilityproduct151
    8Phaseequilibriaandpotentialphasediagrams155
    8.1Gibbs’phaserule155
    8.2Fundamentalpropertydiagram157
    8.3Topologyofpotentialphasediagrams162
    8.4Potentialphasediagramsinbinaryandmultinarysystems166
    8.5Sectionsofpotentialphasediagrams168
    8.6Binarysystems170
    8.7Ternarysystems173
    8.8Directionofphasefieldsinpotentialphasediagrams177
    8.9Extremumintemperatureandpressure181
    9Molarphasediagrams185
    9.1Molaraxes185
    9.2Setsofconjugatepairscontainingmolarvariables189
    9.3Phaseboundaries193
    9.4Sectionsofmolarphasediagrams195
    9.5Schreinemakers’rule197
    9.6Topologyofsectionedmolardiagrams201
    10Projectedandmixedphasediagrams205
    10.1Schreinemakers’projectionofpotentialphasediagrams205
    10.2Thephasefieldruleandprojecteddiagrams208
    10.3RelationbetweenmolardiagramsandSchreinemakers’
    projecteddiagrams212
    10.4Coincidenceofprojectedsurfaces215
    10.5Projectionofhigher-orderinvariantequilibria217
    10.6Thephasefieldruleandmixeddiagrams220
    10.7Selectionofaxesinmixeddiagrams223
    10.8Konovalov’srule226
    10.9Generalruleforsingularequilibria229
    11Directionofphaseboundaries233
    11.1Useofdistributioncoefficient233
    11.2Calculationofallotropicphaseboundaries235
    11.3Variationofachemicalpotentialinatwo-phasefield238
    11.4Directionofphaseboundaries240
    11.5Congruentmeltingpoints244
    11.6Verticalphaseboundaries248
    11.7Slopeofphaseboundariesinisothermalsections249
    11.8Theeffectofapressuredifferencebetweentwophases251
    12Sharpandgradualphasetransformations253
    12.1Experimentalconditions253
    12.2Characterizationofphasetransformations255
    12.3Microstructuralcharacter259
    12.4Phasetransformationsinalloys261
    12.5Classificationofsharpphasetransformations262
    12.6ApplicationsofSchreinemakers’projection266
    12.7Scheil’sreactiondiagram270
    12.8Gradualphasetransformationsatfixedcomposition272
    12.9Phasetransformationscontrolledbyachemicalpotential275
    13Transformationsinclosedsystems279
    13.1Thephasefieldruleatconstantcomposition279
    13.2Reactioncoefficientsinsharptransformations
    forp=c+1280
    13.3Graphicalevaluationofreactioncoefficients283
    13.4Reactioncoefficientsingradualtransformations
    forp=c285
    13.5Drivingforceforsharpphasetransformations287
    13.6Drivingforceunderconstantchemicalpotential291
    13.7Reactioncoefficientsatconstantchemicalpotential294
    13.8Compositionaldegeneraciesforp=c295
    13.9Effectoftwocompositionaldegeneraciesforp=c.1299
    14Partitionlesstransformations302
    14.1Deviationfromlocalequilibrium302
    14.2Adiabaticphasetransformation303
    14.3Quasi-adiabaticphasetransformation305
    14.4Partitionlesstransformationsinbinarysystem308
    14.5Partialchemicalequilibrium311
    14.6Transformationsinsteelunderquasi-paraequilibrium315
    14.7Transformationsinsteelunderpartitioningofalloyingelements319
    15Limitofstabilityandcriticalphenomena322
    15.1Transformationsandtransitions322
    15.2Order–disordertransitions325
    15.3Miscibilitygaps330
    15.4Spinodaldecomposition334
    15.5Tri-criticalpoints338
    16Interfaces344
    16.1Surfaceenergyandsurfacestress344
    16.2Phaseequilibriumatcurvedinterfaces345
    16.3Phaseequilibriumatfluid/fluidinterfaces346
    16.4Sizestabilityforsphericalinclusions350
    16.5Nucleation351
    16.6Phaseequilibriumatcrystal/fluidinterface353
    16.7Equilibriumatcurvedinterfaceswithregardtocomposition356
    16.8Equilibriumforcrystallineinclusionswithregardtocomposition359
    16.9Surfacesegregation361
    16.10Coherencywithinaphase363
    16.11Coherencybetweentwophases366
    16.12Solutedrag371
    17Kineticsoftransportprocesses377
    17.1Thermalactivation377
    17.2Diffusioncoefficients381
    17.3Stationarystatesfortransportprocesses384
    17.4Localvolumechange388
    17.5Compositionofmaterialcrossinganinterface390
    17.6Mechanismsofinterfacemigration391
    17.7Balanceofforcesanddissipation396
    18Methodsofmodelling400
    18.1Generalprinciples400
    18.2Choiceofcharacteristicstatefunction401
    18.3Referencestates402
    18.4RepresentationofGibbsenergyofformation405
    18.5UseofpowerseriesinT407
    18.6Representationofpressuredependence408
    18.7Applicationofphysicalmodels410
    18.8Idealgas411
    18.9Realgases412
    18.10Mixturesofgasspecies415
    18.11Black-bodyradiation417
    18.12Electrongas418
    19Modellingofdisorder420
    19.1Introduction420
    19.2Thermalvacanciesinacrystal420
    19.3Topologicaldisorder423
    19.4Heatcapacityduetothermalvibrations425
    19.5Magneticcontributiontothermodynamicproperties429
    19.6Asimplephysicalmodelforthemagneticcontribution431
    19.7Randommixtureofatoms434
    19.8Restrictedrandommixture436
    19.9Crystalswithstoichiometricvacancies437
    19.10Interstitialsolutions439
    20Mathematicalmodellingofsolutionphases441
    20.1Idealsolution441
    20.2Mixingquantities443
    20.3Excessquantities444
    20.4Empiricalapproachtosubstitutionalsolutions445
    20.5Realsolutions448
    20.6ApplicationsoftheGibbs–Duhemrelation452
    20.7Dilutesolutionapproximations454
    20.8Predictionsforsolutionsinhigher-ordersystems456
    20.9Numericalmethodsofpredictionsforhigher-ordersystems458
    21Solutionphaseswithsublattices460
    21.1Sublatticesolutionphases460
    21.2Interstitialsolutions462
    21.3Reciprocalsolutionphases464
    21.4Combinationofinterstitialandsubstitutionalsolution468
    21.5Phaseswithvariableorder469
    21.6Ionicsolidsolutions472
    22Physicalsolutionmodels476
    22.1Conceptofnearest-neighbourbondenergies476
    22.2Randommixingmodelforasubstitutionalsolution478
    22.3Deviationfromrandomdistribution479
    22.4Short-rangeorder482
    22.5Long-rangeorder484
    22.6Long-andshort-rangeorder486
    22.7Thecompoundenergyformalismwithshort-rangeorder488
    22.8Interstitialordering490
    22.9Compositiondependenceofphysicaleffects493
    References496
    Index499
  • 内容简介:
      《相平衡、相图和相变——其热力学基础(第二版)(英文影印版)》主要内容为现代计算机应用观点下的热力学基本原理。化学平衡和化学变化的理论基础也是本书的内容之一,其重点在于相图的性质。本书从基本原理出发,讨论延及多相的系统。第二版新增加的内容包括不可逆热力学、极值原理和表面、界面热力学等等。平衡条件的理论刻画、系统的平衡状态和达到平衡时的变化都以图解的形式给出。
      《相平衡、相图和相变——其热力学基础(第二版)(英文影印版)》适合材料科学与工程领域的研究人员、研究生和高年级本科生阅读。
  • 作者简介:
      (瑞典)希勒特(M.Hillert),瑞典皇家工学院教授。
  • 目录:
    Prefacetosecondeditionpagexii
    Prefacetofirsteditionxiii
    1Basicconceptsofthermodynamics1
    1.1Externalstatevariables1
    1.2Internalstatevariables3
    1.3Thefirstlawofthermodynamics5
    1.4Freezing-inconditions9
    1.5Reversibleandirreversibleprocesses10
    1.6Secondlawofthermodynamics13
    1.7Conditionofinternalequilibrium17
    1.8Drivingforce19
    1.9Combinedfirstandsecondlaw21
    1.10Generalconditionsofequilibrium23
    1.11Characteristicstatefunctions24
    1.12Entropy26
    2Manipulationofthermodynamicquantities30
    2.1Evaluationofonecharacteristicstatefunctionfromanother30
    2.2Internalvariablesatequilibrium31
    2.3Equationsofstate33
    2.4Experimentalconditions34
    2.5Notationforpartialderivatives37
    2.6Useofvariousderivatives38
    2.7ComparisonbetweenCVandCP40
    2.8Changeofindependentvariables41
    2.9Maxwellrelations43
    3Systemswithvariablecomposition45
    3.1Chemicalpotential45
    3.2Molarandintegralquantities46
    3.3Moreaboutcharacteristicstatefunctions48
    3.4Additivityofextensivequantities.Freeenergyandexergy51
    3.5Variousformsofthecombinedlaw52
    3.6Calculationofequilibrium54
    3.7Evaluationofthedrivingforce56
    3.8Drivingforceformolecularreactions58
    3.9Evaluationofintegrateddrivingforceasfunctionof
    TorP59
    3.10Effectivedrivingforce60
    4Practicalhandlingofmulticomponentsystems63
    4.1Partialquantities63
    4.2Relationsforpartialquantities65
    4.3Alternativevariablesforcomposition67
    4.4Theleverrule70
    4.5Thetie-linerule71
    4.6Differentsetsofcomponents74
    4.7Constitutionandconstituents75
    4.8Chemicalpotentialsinaphasewithsublattices77
    5Thermodynamicsofprocesses80
    5.1Thermodynamictreatmentofkineticsof
    internalprocesses80
    5.2Transformationofthesetofprocesses83
    5.3Alternativemethodsoftransformation85
    5.4Basicthermodynamicconsiderationsforprocesses89
    5.5Homogeneouschemicalreactions92
    5.6Transportprocessesindiscontinuoussystems95
    5.7Transportprocessesincontinuoussystems98
    5.8Substitutionaldiffusion101
    5.9Onsager’sextremumprinciple104
    6Stability108
    6.1Introduction108
    6.2Somenecessaryconditionsofstability110
    6.3Sufficientconditionsofstability113
    6.4Summaryofstabilityconditions115
    6.5Limitofstability116
    6.6Limitofstabilityagainstfluctuationsincomposition117
    6.7Chemicalcapacitance120
    6.8Limitofstabilityagainstfluctuationsof
    internalvariables121
    6.9LeChatelier’sprinciple123
    7ApplicationsofmolarGibbsenergydiagrams126
    7.1MolarGibbsenergydiagramsforbinarysystems126
    7.2Instabilityofbinarysolutions131
    7.3IllustrationoftheGibbs–Duhemrelation132
    7.4Two-phaseequilibriainbinarysystems135
    7.5Allotropicphaseboundaries137
    7.6Effectofapressuredifferenceonatwo-phase
    equilibrium138
    7.7Drivingforcefortheformationofanewphase142
    7.8Partitionlesstransformationunderlocalequilibrium144
    7.9Activationenergyforafluctuation147
    7.10Ternarysystems149
    7.11Solubilityproduct151
    8Phaseequilibriaandpotentialphasediagrams155
    8.1Gibbs’phaserule155
    8.2Fundamentalpropertydiagram157
    8.3Topologyofpotentialphasediagrams162
    8.4Potentialphasediagramsinbinaryandmultinarysystems166
    8.5Sectionsofpotentialphasediagrams168
    8.6Binarysystems170
    8.7Ternarysystems173
    8.8Directionofphasefieldsinpotentialphasediagrams177
    8.9Extremumintemperatureandpressure181
    9Molarphasediagrams185
    9.1Molaraxes185
    9.2Setsofconjugatepairscontainingmolarvariables189
    9.3Phaseboundaries193
    9.4Sectionsofmolarphasediagrams195
    9.5Schreinemakers’rule197
    9.6Topologyofsectionedmolardiagrams201
    10Projectedandmixedphasediagrams205
    10.1Schreinemakers’projectionofpotentialphasediagrams205
    10.2Thephasefieldruleandprojecteddiagrams208
    10.3RelationbetweenmolardiagramsandSchreinemakers’
    projecteddiagrams212
    10.4Coincidenceofprojectedsurfaces215
    10.5Projectionofhigher-orderinvariantequilibria217
    10.6Thephasefieldruleandmixeddiagrams220
    10.7Selectionofaxesinmixeddiagrams223
    10.8Konovalov’srule226
    10.9Generalruleforsingularequilibria229
    11Directionofphaseboundaries233
    11.1Useofdistributioncoefficient233
    11.2Calculationofallotropicphaseboundaries235
    11.3Variationofachemicalpotentialinatwo-phasefield238
    11.4Directionofphaseboundaries240
    11.5Congruentmeltingpoints244
    11.6Verticalphaseboundaries248
    11.7Slopeofphaseboundariesinisothermalsections249
    11.8Theeffectofapressuredifferencebetweentwophases251
    12Sharpandgradualphasetransformations253
    12.1Experimentalconditions253
    12.2Characterizationofphasetransformations255
    12.3Microstructuralcharacter259
    12.4Phasetransformationsinalloys261
    12.5Classificationofsharpphasetransformations262
    12.6ApplicationsofSchreinemakers’projection266
    12.7Scheil’sreactiondiagram270
    12.8Gradualphasetransformationsatfixedcomposition272
    12.9Phasetransformationscontrolledbyachemicalpotential275
    13Transformationsinclosedsystems279
    13.1Thephasefieldruleatconstantcomposition279
    13.2Reactioncoefficientsinsharptransformations
    forp=c+1280
    13.3Graphicalevaluationofreactioncoefficients283
    13.4Reactioncoefficientsingradualtransformations
    forp=c285
    13.5Drivingforceforsharpphasetransformations287
    13.6Drivingforceunderconstantchemicalpotential291
    13.7Reactioncoefficientsatconstantchemicalpotential294
    13.8Compositionaldegeneraciesforp=c295
    13.9Effectoftwocompositionaldegeneraciesforp=c.1299
    14Partitionlesstransformations302
    14.1Deviationfromlocalequilibrium302
    14.2Adiabaticphasetransformation303
    14.3Quasi-adiabaticphasetransformation305
    14.4Partitionlesstransformationsinbinarysystem308
    14.5Partialchemicalequilibrium311
    14.6Transformationsinsteelunderquasi-paraequilibrium315
    14.7Transformationsinsteelunderpartitioningofalloyingelements319
    15Limitofstabilityandcriticalphenomena322
    15.1Transformationsandtransitions322
    15.2Order–disordertransitions325
    15.3Miscibilitygaps330
    15.4Spinodaldecomposition334
    15.5Tri-criticalpoints338
    16Interfaces344
    16.1Surfaceenergyandsurfacestress344
    16.2Phaseequilibriumatcurvedinterfaces345
    16.3Phaseequilibriumatfluid/fluidinterfaces346
    16.4Sizestabilityforsphericalinclusions350
    16.5Nucleation351
    16.6Phaseequilibriumatcrystal/fluidinterface353
    16.7Equilibriumatcurvedinterfaceswithregardtocomposition356
    16.8Equilibriumforcrystallineinclusionswithregardtocomposition359
    16.9Surfacesegregation361
    16.10Coherencywithinaphase363
    16.11Coherencybetweentwophases366
    16.12Solutedrag371
    17Kineticsoftransportprocesses377
    17.1Thermalactivation377
    17.2Diffusioncoefficients381
    17.3Stationarystatesfortransportprocesses384
    17.4Localvolumechange388
    17.5Compositionofmaterialcrossinganinterface390
    17.6Mechanismsofinterfacemigration391
    17.7Balanceofforcesanddissipation396
    18Methodsofmodelling400
    18.1Generalprinciples400
    18.2Choiceofcharacteristicstatefunction401
    18.3Referencestates402
    18.4RepresentationofGibbsenergyofformation405
    18.5UseofpowerseriesinT407
    18.6Representationofpressuredependence408
    18.7Applicationofphysicalmodels410
    18.8Idealgas411
    18.9Realgases412
    18.10Mixturesofgasspecies415
    18.11Black-bodyradiation417
    18.12Electrongas418
    19Modellingofdisorder420
    19.1Introduction420
    19.2Thermalvacanciesinacrystal420
    19.3Topologicaldisorder423
    19.4Heatcapacityduetothermalvibrations425
    19.5Magneticcontributiontothermodynamicproperties429
    19.6Asimplephysicalmodelforthemagneticcontribution431
    19.7Randommixtureofatoms434
    19.8Restrictedrandommixture436
    19.9Crystalswithstoichiometricvacancies437
    19.10Interstitialsolutions439
    20Mathematicalmodellingofsolutionphases441
    20.1Idealsolution441
    20.2Mixingquantities443
    20.3Excessquantities444
    20.4Empiricalapproachtosubstitutionalsolutions445
    20.5Realsolutions448
    20.6ApplicationsoftheGibbs–Duhemrelation452
    20.7Dilutesolutionapproximations454
    20.8Predictionsforsolutionsinhigher-ordersystems456
    20.9Numericalmethodsofpredictionsforhigher-ordersystems458
    21Solutionphaseswithsublattices460
    21.1Sublatticesolutionphases460
    21.2Interstitialsolutions462
    21.3Reciprocalsolutionphases464
    21.4Combinationofinterstitialandsubstitutionalsolution468
    21.5Phaseswithvariableorder469
    21.6Ionicsolidsolutions472
    22Physicalsolutionmodels476
    22.1Conceptofnearest-neighbourbondenergies476
    22.2Randommixingmodelforasubstitutionalsolution478
    22.3Deviationfromrandomdistribution479
    22.4Short-rangeorder482
    22.5Long-rangeorder484
    22.6Long-andshort-rangeorder486
    22.7Thecompoundenergyformalismwithshort-rangeorder488
    22.8Interstitialordering490
    22.9Compositiondependenceofphysicaleffects493
    References496
    Index499
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相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
我们八月见(加西亚·马尔克斯逝世十周年,遗作小说全球同步首发。饿的时候才吃饭,爱的时候不必撒谎)
加西亚·马尔克斯 著;新经典 出品
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
富马利中国见闻录
[美]富马利
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
中国山水画对谈录(跟随十位大师,走近山水画世界)
许钦松 编著
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
街头官僚:公共服务中的个人困境
[美]迈克尔·李普斯基(Michael Lipsky)
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
少数派的感受
[美]凯茜·帕克·洪
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
海外中国研究·卿本著者:明清女性的性别身份、能动主体和文学书写
[加拿大]方秀洁 著;陈昉昊 译;周睿
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
裙子的文化史:从中世纪至今
[法]乔治·维加埃罗 著;刘康宁 译
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
影子母亲:保姆、换工与育儿中的微观政治(薄荷实验)
[美]卡梅隆·林·麦克唐纳 著;杨可 译
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
逃出瓶子的精灵:一部关于“我”的哲学史
[荷兰]戈尔·格罗特
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
世界的尽头是一杯好咖啡
临风君
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
【贝页】消失中的食物:除了美味,我们还将失去什么
丹·萨拉迪诺
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
我该走了吗
李翊云
相关图书 / 更多
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
我们八月见(加西亚·马尔克斯逝世十周年,遗作小说全球同步首发。饿的时候才吃饭,爱的时候不必撒谎)
加西亚·马尔克斯 著;新经典 出品
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
富马利中国见闻录
[美]富马利
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
中国山水画对谈录(跟随十位大师,走近山水画世界)
许钦松 编著
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
街头官僚:公共服务中的个人困境
[美]迈克尔·李普斯基(Michael Lipsky)
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
少数派的感受
[美]凯茜·帕克·洪
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
海外中国研究·卿本著者:明清女性的性别身份、能动主体和文学书写
[加拿大]方秀洁 著;陈昉昊 译;周睿
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
裙子的文化史:从中世纪至今
[法]乔治·维加埃罗 著;刘康宁 译
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
影子母亲:保姆、换工与育儿中的微观政治(薄荷实验)
[美]卡梅隆·林·麦克唐纳 著;杨可 译
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
逃出瓶子的精灵:一部关于“我”的哲学史
[荷兰]戈尔·格罗特
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
世界的尽头是一杯好咖啡
临风君
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
【贝页】消失中的食物:除了美味,我们还将失去什么
丹·萨拉迪诺
相平衡、相图和相变:其热力学基础(第二版)(英文影印版)
我该走了吗
李翊云