激光快速成型骨支架进展(英文版)

激光快速成型骨支架进展(英文版)
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作者:
出版社: 科学出版社
2014-12
版次: 1
ISBN: 9787030420077
定价: 128.00
装帧: 平装
开本: 32开
纸张: 胶版纸
页数: 326页
正文语种: 英语
分类: 工程技术
  •   《ProgressofBoneScaffoldbyLaserRapidPrototyping激光快速成型骨支架进展》系统介绍激光快速成型技术在人工骨支架制备中的研究现状,详细分析和归纳目前生物材料用于骨修复及再生的研究进展,全面总结骨支架材料的种类及特点,重点探讨不同骨支架材料的强度、韧性、生物相容性、降解性及其与组织细胞的相互作用规律,以期对骨组织缺损的修复与功能重建提供理论与技术指导。 Preface
    Chapter1Hydroxyapatite-BasedBoneScaffolds 1
    1.1StructuralDesignandExperimentalAnalysisofaSelectiveLaser
    SinteringSystemwithNano-HydroxyapatitePowder 2
    1.2StructureandPropertiesofNano-HydroxyapatiteScaffoldsforBone
    TissueEngineeringwithSelectiveLaserSinteringSystem 8
    1.3TheMicrostructureEvolutionofNano-HydroxyapatitePowderSinteredfor
    BoneTissueEngineering 21
    1.4FabricationOptimizationofNano-HydroxyapatiteArtificialBone
    Scaffolds 32
    1.5GrainGrowthAssociatesMechanicalPropertiesinNano-Hydroxyapatite
    BoneScaffolds 43
    1.6SimulationofDynamicTemperatureFieldduringSelectiveLaserSintering
    ofCeramicPowder 51
    1.7Poly(L-lactideacid)ImprovescompleteNano-Hydroxyapatite
    BoneScaffoldsthroughtheMicrostructureRearrangement 59
    1.8ProcessingandCharacterizationofLaserSinteredHydroxyapatite
    ScaffoldforTissueEngineering 71
    References 80
    Chapter2TricalciumPhosphate-BasedBoneScaffolds 91
    2.1CorrelationbetweenPropertiesandMicrostructureofLaserSintered
    Porousβ-TricalciumPhosphateBoneScaffolds 92
    2.2AnalysisofTransientTemperatureDistributioninSelectiveLaser
    Sinteringofβ-TricalciumPhosphate 106
    2.3InhibitionofPhaseTransformationfromβ-toα-TricalciumPhosphate
    withAdditionofPoly(L-lacticacid)inSelectiveLaserSintering 113
    2.4MechanicalPropertiesImprovementofTricalciumPhosphateScaffold
    withPoly(L-lacticacid)inSelectiveLaserSintering 122
    2.5InvitroBioactivityandDegradabilityofβ-TricalciumPhosphatePorous
    ScaffoldsFabricatedviaSelectiveLaserSintering 133
    2.6CharacterizationofMechanicalandBiologicalPropertiesof3-D
    ScaffoldsReinforcedwithZincOxideforBoneTissueEngineering 144
    2.7Nano-HydroxyapatiteImprovesthePropertiesofβ-tricalciumPhosphate
    BoneScaffolds 160
    References 171
    Chapter3BiodegradablePolymer-BasedBoneScaffolds 188
    3.1FabricationofPorousPolyvinylAlcoholScaffoldforBoneTissue
    EngineeringviaSelectiveLaserSintering 188
    3.2DevelopmentofComplexPorousPolyvinylAlcoholScaffolds:
    Microstructure,MechanicalandBiologicalEvaluations 198
    3.3PreparationofComplexPorousScaffoldsviaSelectiveLaserSintering
    ofPolyvinylAlcohol/CalciumSilicate 206
    3.4DevelopmentofCompositePorousScaffoldsBasedonPoly(Lactideco-
    Glycolide)/Nano-HydroxyapatiteviaSelectiveLaserSintering 214
    References 223
    Chapter4BioactiveGlass-BasedBoneScaffolds 231
    4.1FabricationandCharacterizationofPorous45S5GlassScaffoldsvia
    DirectSelectiveLaserSintering 231
    4.2EnhancementMechanismsofGrapheneinNano-58SBioactiveGlass
    Scaffold:MechanicalandBiologicalPerformance 239
    References 254
    Chapter5OtherBoneScaffolds 259
    5.1FabricationandCharacterizationofCalciumSilicateScaffoldsfor
    TissueEngineering 259
    5.2Graphene-ReinforcedMechanicalPropertiesofCalciumSilicate
    ScaffoldsbyLaserSintering 270
    5.3EnhancedSinteringAbilityofBiphasicCalciumPhosphatebyPolymers
    UsedforBoneScaffoldFabrication 280
    5.4OptimizationofTCP/HAPRatioforBetterPropertiesofCalcium
    PhosphateScaffoldviaSelectiveLaserSintering 294
    5.5NovelForsteriteScaffoldsforBoneTissueEngineering:SelectiveLaser
    SinteringFabricationandCharacterization 303
    References 310
  • 内容简介:
      《ProgressofBoneScaffoldbyLaserRapidPrototyping激光快速成型骨支架进展》系统介绍激光快速成型技术在人工骨支架制备中的研究现状,详细分析和归纳目前生物材料用于骨修复及再生的研究进展,全面总结骨支架材料的种类及特点,重点探讨不同骨支架材料的强度、韧性、生物相容性、降解性及其与组织细胞的相互作用规律,以期对骨组织缺损的修复与功能重建提供理论与技术指导。
  • 目录:
    Preface
    Chapter1Hydroxyapatite-BasedBoneScaffolds 1
    1.1StructuralDesignandExperimentalAnalysisofaSelectiveLaser
    SinteringSystemwithNano-HydroxyapatitePowder 2
    1.2StructureandPropertiesofNano-HydroxyapatiteScaffoldsforBone
    TissueEngineeringwithSelectiveLaserSinteringSystem 8
    1.3TheMicrostructureEvolutionofNano-HydroxyapatitePowderSinteredfor
    BoneTissueEngineering 21
    1.4FabricationOptimizationofNano-HydroxyapatiteArtificialBone
    Scaffolds 32
    1.5GrainGrowthAssociatesMechanicalPropertiesinNano-Hydroxyapatite
    BoneScaffolds 43
    1.6SimulationofDynamicTemperatureFieldduringSelectiveLaserSintering
    ofCeramicPowder 51
    1.7Poly(L-lactideacid)ImprovescompleteNano-Hydroxyapatite
    BoneScaffoldsthroughtheMicrostructureRearrangement 59
    1.8ProcessingandCharacterizationofLaserSinteredHydroxyapatite
    ScaffoldforTissueEngineering 71
    References 80
    Chapter2TricalciumPhosphate-BasedBoneScaffolds 91
    2.1CorrelationbetweenPropertiesandMicrostructureofLaserSintered
    Porousβ-TricalciumPhosphateBoneScaffolds 92
    2.2AnalysisofTransientTemperatureDistributioninSelectiveLaser
    Sinteringofβ-TricalciumPhosphate 106
    2.3InhibitionofPhaseTransformationfromβ-toα-TricalciumPhosphate
    withAdditionofPoly(L-lacticacid)inSelectiveLaserSintering 113
    2.4MechanicalPropertiesImprovementofTricalciumPhosphateScaffold
    withPoly(L-lacticacid)inSelectiveLaserSintering 122
    2.5InvitroBioactivityandDegradabilityofβ-TricalciumPhosphatePorous
    ScaffoldsFabricatedviaSelectiveLaserSintering 133
    2.6CharacterizationofMechanicalandBiologicalPropertiesof3-D
    ScaffoldsReinforcedwithZincOxideforBoneTissueEngineering 144
    2.7Nano-HydroxyapatiteImprovesthePropertiesofβ-tricalciumPhosphate
    BoneScaffolds 160
    References 171
    Chapter3BiodegradablePolymer-BasedBoneScaffolds 188
    3.1FabricationofPorousPolyvinylAlcoholScaffoldforBoneTissue
    EngineeringviaSelectiveLaserSintering 188
    3.2DevelopmentofComplexPorousPolyvinylAlcoholScaffolds:
    Microstructure,MechanicalandBiologicalEvaluations 198
    3.3PreparationofComplexPorousScaffoldsviaSelectiveLaserSintering
    ofPolyvinylAlcohol/CalciumSilicate 206
    3.4DevelopmentofCompositePorousScaffoldsBasedonPoly(Lactideco-
    Glycolide)/Nano-HydroxyapatiteviaSelectiveLaserSintering 214
    References 223
    Chapter4BioactiveGlass-BasedBoneScaffolds 231
    4.1FabricationandCharacterizationofPorous45S5GlassScaffoldsvia
    DirectSelectiveLaserSintering 231
    4.2EnhancementMechanismsofGrapheneinNano-58SBioactiveGlass
    Scaffold:MechanicalandBiologicalPerformance 239
    References 254
    Chapter5OtherBoneScaffolds 259
    5.1FabricationandCharacterizationofCalciumSilicateScaffoldsfor
    TissueEngineering 259
    5.2Graphene-ReinforcedMechanicalPropertiesofCalciumSilicate
    ScaffoldsbyLaserSintering 270
    5.3EnhancedSinteringAbilityofBiphasicCalciumPhosphatebyPolymers
    UsedforBoneScaffoldFabrication 280
    5.4OptimizationofTCP/HAPRatioforBetterPropertiesofCalcium
    PhosphateScaffoldviaSelectiveLaserSintering 294
    5.5NovelForsteriteScaffoldsforBoneTissueEngineering:SelectiveLaser
    SinteringFabricationandCharacterization 303
    References 310
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