Buch, Englisch, Band 3, 532 Seiten, Format (B × H): 176 mm x 244 mm, Gewicht: 1214 g
Buch, Englisch, Band 3, 532 Seiten, Format (B × H): 176 mm x 244 mm, Gewicht: 1214 g
Reihe: Ceramics Science and Technology
ISBN: 978-3-527-31157-6
Verlag: Wiley VCH Verlag GmbH
Built on the solid foundations laid down by the 20-volume series Materials Science and Technology, Ceramics Science and Technology picks out this exciting material class and illuminates it from all sides.
Materials scientists, engineers, chemists, biochemists, physicists and medical researchers alike will find this work a treasure trove for a wide range of ceramics knowledge from theory and fundamentals to practical approaches and problem solutions.
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Verfahrenstechnik | Chemieingenieurwesen | Biotechnologie Keramik- und Glastechnologie
- Technische Wissenschaften Maschinenbau | Werkstoffkunde Technische Mechanik | Werkstoffkunde Materialwissenschaft: Keramik, Glas, Sonstige Werkstoffe
- Naturwissenschaften Chemie Physikalische Chemie
- Naturwissenschaften Physik Angewandte Physik Chemische Physik
Weitere Infos & Material
PART I: PowdersPOWDER COMPACTION BY DRY PRESSINGIntroductionFundamental Aspects of Dry PressingPractice of Uniaxial CompactionPractice of Isostatic CompactionGranulation of Ceramic PowdersTAPE CASTINGUse of the Tape Casting ProcessProcess VariationsTape Casting ProcessComponents of the SlurryPreparation of the Slurry and its Properties Tape CastingMachining, Metallization, and LaminationBinder BurnoutFiringSummaryHYDROTHERMAL ROUTES TO ADVANCED CERAMIC POWDERS AND MATERIALSIntroduction to Hydrothermal SynthesisEngineering Ceramic Synthesis in Hydrothermal SolutionMaterials Chemistry of Hydrothermal Ceramic PowdersCeramics Processed from Hydrothermally Synthesized PowdersSummaryLIQUID FEED-FLAME SPRAY PYROLYSIS (LF-FSP) IN THE SYNTHESIS OF SINGLE- AND MIXED-METAL OXIDE NANOPOWDERSIntroductionBasic Concepts of Nanopowder Formation During LF-FSPCan Nanoparticles Be Prepared That Consist of Mixed Phases?Which Particle Morphologies Can be Accessed?Can Nanopowders Be Doped?SOL-GEL PROCESSING OF CERAMICSIntroductionPrinciples of Sol-Gel ProcessingPorous MaterialsHybrid MaterialsBioactive Sol-Gel MaterialsPART II: Densification and BeyondSINTERINGSintering PhenomenaSolid-State SinteringLiquid-Phase SinteringSummaryHOT ISOSTATIC PRESSING AND GAS-PRESSURE SINTERINGIntroductionSintering Mechanisms with Applied PressureSilicon Nitride Ceramics: Comparison of Capsule HIP and Sinter-HIP TechnologyOther ApplicationsHOT PRESSING AND SPARK PLASMA SINTERINGIntroduction Advantages of Sintering Under a Uniaxial PressureConventional Hot PressesSPS Set-UpUnique Features and Advantages of the SPS ProcessThe Role of High PressureThe Role of Rapid and Effective HeatingThe Role of Pulsed Direct CurrentMicrostructural Prototyping by SPSPotential Industrial ApplicationsFUNDAMENTALS AND METHODS OF CERAMIC JOININGIntroductionBasic Phenomena in Ceramic JoiningMethods of JoiningConclusionsMACHINING AND FINISHING OF CERAMICSIntroductionFace and Profile GrindingCurrent Status and Future ProspectsDouble-Face Grinding with Planetary KinematicsUltrasonic-Assisted GrindingAbrasive Flow MachiningOutlookPART III: Films and CoatingsVAPOR-PHASE DEPOSITION OF OXIDESIntroductionSummaryMETAL-ORGANIC CHEMICAL VAPOR DEPOSITION OF METAL OXIDE FILMS AND NANOSTRUCTURESIntroductionMetal Oxide Film DepositionThe Precursor Concept in CVDMetal Oxide CoatingsSummaryPART IV: Manufacturing TechnologyPOWDER CHARACTERIZATIONIntroductionChemical Composition and Surface Characterization Particle Sizing and Data InterpretationPhysical PropertiesSummaryPROCESS DEFECTSIntroductionBulk Examination MethodsCharacterization Methods for Green CompactProcess Defects in CeramicsNONCONVENTIONAL POLYMERS IN CERAMIC PROCESSING: THERMOPLASTICS AND MONOMERSIntroduction: Ceramic Green Bodies as Filled PolymersThermoplastics in Ceramic ProcessingA Brief Review of Thermoplastics Used in Ceramic FormingMelt Spinning of FibersSingle-Component Extrusion and "Plastics Processing"Thermoplastic Green MachiningThermoplastic CoextrusionCrystallinity in ThermoplasticsCompounding Thermoplastic Blends Volumetric Changes in Thermoplastic-Ceramic CompoundsPolymer Formation by Polymerization of Suspensions in MonomersSummaryMANUFACTURING TECHNOLOGY: RAPID PROTOTYPINGIntroductionOutline of Ceramic ProcessingSolid Freeform FabricationAdditive Prototyping ProcessesSheet-Based ProcessesFormative Prototyping MethodsCasting MethodsPlastic-Forming Methods Subtractive MethodsExamples of SFFSummaryPART V: Alternative Strategies to CeramicsSINTERING OF NANOGRAIN CERAMICSIntroductionBackground: What Went Wrong With Conventional Thinking?Two-Step Sintering of Y2O3Two-Step Sintering of Other CeramicsConclusionsPOLYMER-DERIVED CERAMICSIntroductionPreceramic PolymersPolymer-to-Ceramic TransformationProcessing Techniques for PDCsHigh-Temperature Behavior of PDCsElectrical Properties of PDCsMagnetic Properties of PDCs Polymer-Derived Ceramic MembranesMicrofabrication of PDC-Based Components for MEMS ApplicationsSummary and OutlookHIGH-PRESSURE ROUTES TO CERAMICSIntroductionStatic High-Pressure TechniquesShock-Wave TechniquesSynthesis of Cubic Silicon Nitride
PART I: PowdersPOWDER COMPACTION BY DRY PRESSINGIntroductionFundamental Aspects of Dry PressingPractice of Uniaxial CompactionPractice of Isostatic CompactionGranulation of Ceramic PowdersTAPE CASTINGUse of the Tape Casting ProcessProcess VariationsTape Casting ProcessComponents of the SlurryPreparation of the Slurry and its Properties Tape CastingMachining, Metallization, and LaminationBinder BurnoutFiringSummaryHYDROTHERMAL ROUTES TO ADVANCED CERAMIC POWDERS AND MATERIALSIntroduction to Hydrothermal SynthesisEngineering Ceramic Synthesis in Hydrothermal SolutionMaterials Chemistry of Hydrothermal Ceramic PowdersCeramics Processed from Hydrothermally Synthesized PowdersSummaryLIQUID FEED-FLAME SPRAY PYROLYSIS (LF-FSP) IN THE SYNTHESIS OF SINGLE- AND MIXED-METAL OXIDE NANOPOWDERSIntroductionBasic Concepts of Nanopowder Formation During LF-FSPCan Nanoparticles Be Prepared That Consist of Mixed Phases?Which Particle Morphologies Can be Accessed?Can Nanopowders Be Doped?SOL-GEL PROCESSING OF CERAMICSIntroductionPrinciples of Sol-Gel ProcessingPorous MaterialsHybrid MaterialsBioactive Sol-Gel MaterialsPART II: Densification and BeyondSINTERINGSintering PhenomenaSolid-State SinteringLiquid-Phase SinteringSummaryHOT ISOSTATIC PRESSING AND GAS-PRESSURE SINTERINGIntroductionSintering Mechanisms with Applied PressureSilicon Nitride Ceramics: Comparison of Capsule HIP and Sinter-HIP TechnologyOther ApplicationsHOT PRESSING AND SPARK PLASMA SINTERINGIntroduction Advantages of Sintering Under a Uniaxial PressureConventional Hot PressesSPS Set-UpUnique Features and Advantages of the SPS ProcessThe Role of High PressureThe Role of Rapid and Effective HeatingThe Role of Pulsed Direct CurrentMicrostructural Prototyping by SPSPotential Industrial ApplicationsFUNDAMENTALS AND METHODS OF CERAMIC JOININGIntroductionBasic Phenomena in Ceramic JoiningMethods of JoiningConclusionsMACHINING AND FINISHING OF CERAMICSIntroductionFace and Profile GrindingCurrent Status and Future ProspectsDouble-Face Grinding with Planetary KinematicsUltrasonic-Assisted GrindingAbrasive Flow MachiningOutlookPART III: Films and CoatingsVAPOR-PHASE DEPOSITION OF OXIDESIntroductionSummaryMETAL-ORGANIC CHEMICAL VAPOR DEPOSITION OF METAL OXIDE FILMS AND NANOSTRUCTURESIntroductionMetal Oxide Film DepositionThe Precursor Concept in CVDMetal Oxide CoatingsSummaryPART IV: Manufacturing TechnologyPOWDER CHARACTERIZATIONIntroductionChemical Composition and Surface Characterization Particle Sizing and Data InterpretationPhysical PropertiesSummaryPROCESS DEFECTSIntroductionBulk Examination MethodsCharacterization Methods for Green CompactProcess Defects in CeramicsNONCONVENTIONAL POLYMERS IN CERAMIC PROCESSING: THERMOPLASTICS AND MONOMERSIntroduction: Ceramic Green Bodies as Filled PolymersThermoplastics in Ceramic ProcessingA Brief Review of Thermoplastics Used in Ceramic FormingMelt Spinning of FibersSingle-Component Extrusion and "Plastics Processing"Thermoplastic Green MachiningThermoplastic CoextrusionCrystallinity in ThermoplasticsCompounding Thermoplastic Blends Volumetric Changes in Thermoplastic-Ceramic CompoundsPolymer Formation by Polymerization of Suspensions in MonomersSummaryMANUFACTURING TECHNOLOGY: RAPID PROTOTYPINGIntroductionOutline of Ceramic ProcessingSolid Freeform FabricationAdditive Prototyping ProcessesSheet-Based ProcessesFormative Prototyping MethodsCasting MethodsPlastic-Forming Methods Subtractive MethodsExamples of SFFSummaryPART V: Alternative Strategies to CeramicsSINTERING OF NANOGRAIN CERAMICSIntroductionBackground: What Went Wrong With Conventional Thinking?Two-Step Sintering of Y2O3Two-Step Sintering of Other CeramicsConclusionsPOLYMER-DERIVED CERAMICSIntroductionPreceramic PolymersPolymer-to-Ceramic TransformationProcessing Techniques for PDCsHigh-Temperature Behavior of PDCsElectrical Properties of PDCsMagnetic Properties of PDCs Polymer-Derived Ceramic MembranesMicrofabrication of PDC-Based Components for MEMS ApplicationsSummary and OutlookHIGH-PRESSURE ROUTES TO CERAMICSIntroductionStatic High-Pressure TechniquesShock-Wave TechniquesSynthesis of Cubic Silicon Nitride