Thermal stresses :: design, behavior and applications /
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
New York :
Nova Science Publishers,
[2016]
|
| Schriftenreihe: | Materials science and technologies
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | 1 online resource. |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781634853736 1634853733 163485389X 9781634853897 |
Internformat
MARC
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| 130 | 0 | |a Thermal stresses (Webb) | |
| 245 | 1 | 0 | |a Thermal stresses : |b design, behavior and applications / |c Alfred R. Webb, editor. |
| 264 | 1 | |a New York : |b Nova Science Publishers, |c [2016] | |
| 300 | |a 1 online resource. | ||
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| 490 | 0 | |a Materials science and technologies | |
| 504 | |a Includes bibliographical references and index. | ||
| 588 | |a Description based on print version record and CIP data provided by publisher. | ||
| 505 | 0 | |a THERMAL STRESSES DESIGN, BEHAVIOR AND APPLICATIONS ; THERMAL STRESSES DESIGN, BEHAVIOR AND APPLICATIONS ; CONTENTS ; PREFACE ; Chapter 1 DESIGN OPTIMIZATION OF PEM FUEL CELLS TO MINIMIZE THE MAXIMUM THERMAL STRESS; Abstract ; 1. Introduction ; 1.1. Background; 1.2. Durability ; 1.3. PEM Fuel Cells Assembly ; 1.4. PEM Fuel Cell Operation ; 2. PEM Fuel Cell Model ; 2.1. Solid Mechanics Model ; 2.1.1. Solid Mechanics Model During Assembly ; 2.1.2. Solid Mechanics Model During Operation ; 2.2. Thermal-Fluid Model ; 2.2.1. Gas Flow Channels ; 2.2.2. Gas Diffusion Layers | |
| 505 | 8 | |a 2.2.3. Catalyst Layers 2.2.4. Membrane ; 2.3. Computational Grid ; 3. Results and Discussion ; Conclusion ; References ; Chapter2ENERGYANALYSISOFANALYTICALMODELSOFTHERMALSTRESSESINCOMPOSITEMATERIALS ; Abstract; 1.Introduction; 2.Aims; 3.ReasonofThermalStresses; 4.CellModel; 5.Thermal-StressInducedRadialDisplacement; 6.Thermal-StressInducedElasticEnergy; 7.PrincipleofMinimumEnergy; 8.FundamentalEquations; 8.1.Cauchy'sEquations; 8.2.EquilibriumEquations; 8.3.Hooke'sLaw; 9.MathematicalProcedures; 9.1.MathematicalProcedure1; 9.2.MathematicalProcedure2; 10.BoundaryConditions | |
| 505 | 8 | |a 10.1.SphericalParticle10.2.CellMatrix; 10.3.RadialStressp; 11.EnergyAnalysisofAnalyticalModels; 11.1.CombinationsofSolutions; 11.2.ApplicationtoSiC-Si3N4Ceramics; Conclusion; Acknowledgments; References; Chapter3ANALYTICALMODELOFTHERMALSTRESSESANDCRACKFORMATIONINTWO-COMPONENTANISOTROPICMATERIALS ; Abstract; 1.Introduction; 2.CellModelandCoordinateSystem; 3.NotationofSubscripts; 4.FundamentalEquations; 5.MathematicalProcedures; 6.BoundaryConditions; 6.1.SphericalParticle; 6.2.CellMatrix; 7.ThermalStresses; 7.1.SphericalParticle; 7.2.CellMatrix; 7.3.RadialStressp | |
| 505 | 8 | |a 8.AnalyticalModelofCrackFormation8.1.GeneralAnalysis; 8.2.CellModel; 8.3.DeterminationofW(ij)cpandW(ij); 8.3.1.Condition 01p(', )6= 01m(', ); 8.3.2.Condition 01p(', )= 01m(', )for = pm('); 8.4.TransformationsConcerningCrackinginPlanesxixj,xjxk,xkxi; 9.CrackFormationinYBaCuOSuperconductor; Conclusion; Appendix; Acknowledgments; References; Chapter 4 ANALYSIS ON THERMAL LOADS OF NOZZLE IN LOW-TEMPERATURE REACTOR PIPING ; Abstract ; Introduction ; 1. Buffer Method [1] ; 1.1. Analysis of Loads Exceeding Limits ; 1.2. Supports Adjusting Analysis ; 1.3. Brief Summary ; 2. Truncating Method [2] | |
| 505 | 8 | |a 2.1. Analysis of Loads Exceeding Limits and Supports Setting 2.2. Brief Summary; 3. Integrated Method [3] ; 3.1. Analysis of Loads Exceeding Limits and Supports Setting ; 3.3. Brief Summary ; Conclusion ; References ; Chapter 5 EFFECT OF THERMAL STRESS ON THE PERFORMANCES OF THE MULTI-BUNDLE INTEGRATED-PLANAR SOLID OXIDE FUEL CELLS IP-SOFC ; Abstract ; 1. Introduction ; 2. Presentation of an IP-SOFC; 2.1. Stack Description ; 2.2. Cell Description ; 3. Material Properties ; a. Electrolyte Yettria Stabilised Zirconia (YSZ); b. Anode Ni-YSZ ; c. Strontium-Doped Lanthanum Manganite (LSM) | |
| 650 | 0 | |a Thermal stresses. |0 http://id.loc.gov/authorities/subjects/sh85134764 | |
| 650 | 6 | |a Contraintes thermiques. | |
| 650 | 7 | |a thermal stress. |2 aat | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING / Engineering (General) |2 bisacsh | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING / Reference |2 bisacsh | |
| 650 | 7 | |a Thermal stresses |2 fast | |
| 700 | 1 | |a Webb, Alfred R., |e editor. | |
| 758 | |i has work: |a Thermal Stresses: Design, Behavior and Applications (Text) |1 https://id.oclc.org/worldcat/entity/E39PD3Jc7p7q6w6B4thHJkvHQ3 |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
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Datensatz im Suchindex
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|---|---|
| _version_ | 1816882354765955072 |
| adam_text | |
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| author_facet | Webb, Alfred R. |
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| contents | THERMAL STRESSES DESIGN, BEHAVIOR AND APPLICATIONS ; THERMAL STRESSES DESIGN, BEHAVIOR AND APPLICATIONS ; CONTENTS ; PREFACE ; Chapter 1 DESIGN OPTIMIZATION OF PEM FUEL CELLS TO MINIMIZE THE MAXIMUM THERMAL STRESS; Abstract ; 1. Introduction ; 1.1. Background; 1.2. Durability ; 1.3. PEM Fuel Cells Assembly ; 1.4. PEM Fuel Cell Operation ; 2. PEM Fuel Cell Model ; 2.1. Solid Mechanics Model ; 2.1.1. Solid Mechanics Model During Assembly ; 2.1.2. Solid Mechanics Model During Operation ; 2.2. Thermal-Fluid Model ; 2.2.1. Gas Flow Channels ; 2.2.2. Gas Diffusion Layers 2.2.3. Catalyst Layers 2.2.4. Membrane ; 2.3. Computational Grid ; 3. Results and Discussion ; Conclusion ; References ; Chapter2ENERGYANALYSISOFANALYTICALMODELSOFTHERMALSTRESSESINCOMPOSITEMATERIALS ; Abstract; 1.Introduction; 2.Aims; 3.ReasonofThermalStresses; 4.CellModel; 5.Thermal-StressInducedRadialDisplacement; 6.Thermal-StressInducedElasticEnergy; 7.PrincipleofMinimumEnergy; 8.FundamentalEquations; 8.1.Cauchy'sEquations; 8.2.EquilibriumEquations; 8.3.Hooke'sLaw; 9.MathematicalProcedures; 9.1.MathematicalProcedure1; 9.2.MathematicalProcedure2; 10.BoundaryConditions 10.1.SphericalParticle10.2.CellMatrix; 10.3.RadialStressp; 11.EnergyAnalysisofAnalyticalModels; 11.1.CombinationsofSolutions; 11.2.ApplicationtoSiC-Si3N4Ceramics; Conclusion; Acknowledgments; References; Chapter3ANALYTICALMODELOFTHERMALSTRESSESANDCRACKFORMATIONINTWO-COMPONENTANISOTROPICMATERIALS ; Abstract; 1.Introduction; 2.CellModelandCoordinateSystem; 3.NotationofSubscripts; 4.FundamentalEquations; 5.MathematicalProcedures; 6.BoundaryConditions; 6.1.SphericalParticle; 6.2.CellMatrix; 7.ThermalStresses; 7.1.SphericalParticle; 7.2.CellMatrix; 7.3.RadialStressp 8.AnalyticalModelofCrackFormation8.1.GeneralAnalysis; 8.2.CellModel; 8.3.DeterminationofW(ij)cpandW(ij); 8.3.1.Condition 01p(', )6= 01m(', ); 8.3.2.Condition 01p(', )= 01m(', )for = pm('); 8.4.TransformationsConcerningCrackinginPlanesxixj,xjxk,xkxi; 9.CrackFormationinYBaCuOSuperconductor; Conclusion; Appendix; Acknowledgments; References; Chapter 4 ANALYSIS ON THERMAL LOADS OF NOZZLE IN LOW-TEMPERATURE REACTOR PIPING ; Abstract ; Introduction ; 1. Buffer Method [1] ; 1.1. Analysis of Loads Exceeding Limits ; 1.2. Supports Adjusting Analysis ; 1.3. Brief Summary ; 2. Truncating Method [2] 2.1. Analysis of Loads Exceeding Limits and Supports Setting 2.2. Brief Summary; 3. Integrated Method [3] ; 3.1. Analysis of Loads Exceeding Limits and Supports Setting ; 3.3. Brief Summary ; Conclusion ; References ; Chapter 5 EFFECT OF THERMAL STRESS ON THE PERFORMANCES OF THE MULTI-BUNDLE INTEGRATED-PLANAR SOLID OXIDE FUEL CELLS IP-SOFC ; Abstract ; 1. Introduction ; 2. Presentation of an IP-SOFC; 2.1. Stack Description ; 2.2. Cell Description ; 3. Material Properties ; a. Electrolyte Yettria Stabilised Zirconia (YSZ); b. Anode Ni-YSZ ; c. Strontium-Doped Lanthanum Manganite (LSM) |
| ctrlnum | (OCoLC)953617856 |
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| illustrated | Not Illustrated |
| indexdate | 2024-11-27T13:27:17Z |
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| record_format | marc |
| series2 | Materials science and technologies |
| spelling | Thermal stresses (Webb) Thermal stresses : design, behavior and applications / Alfred R. Webb, editor. New York : Nova Science Publishers, [2016] 1 online resource. text txt rdacontent computer c rdamedia online resource cr rdacarrier data file rda Materials science and technologies Includes bibliographical references and index. Description based on print version record and CIP data provided by publisher. THERMAL STRESSES DESIGN, BEHAVIOR AND APPLICATIONS ; THERMAL STRESSES DESIGN, BEHAVIOR AND APPLICATIONS ; CONTENTS ; PREFACE ; Chapter 1 DESIGN OPTIMIZATION OF PEM FUEL CELLS TO MINIMIZE THE MAXIMUM THERMAL STRESS; Abstract ; 1. Introduction ; 1.1. Background; 1.2. Durability ; 1.3. PEM Fuel Cells Assembly ; 1.4. PEM Fuel Cell Operation ; 2. PEM Fuel Cell Model ; 2.1. Solid Mechanics Model ; 2.1.1. Solid Mechanics Model During Assembly ; 2.1.2. Solid Mechanics Model During Operation ; 2.2. Thermal-Fluid Model ; 2.2.1. Gas Flow Channels ; 2.2.2. Gas Diffusion Layers 2.2.3. Catalyst Layers 2.2.4. Membrane ; 2.3. Computational Grid ; 3. Results and Discussion ; Conclusion ; References ; Chapter2ENERGYANALYSISOFANALYTICALMODELSOFTHERMALSTRESSESINCOMPOSITEMATERIALS ; Abstract; 1.Introduction; 2.Aims; 3.ReasonofThermalStresses; 4.CellModel; 5.Thermal-StressInducedRadialDisplacement; 6.Thermal-StressInducedElasticEnergy; 7.PrincipleofMinimumEnergy; 8.FundamentalEquations; 8.1.Cauchy'sEquations; 8.2.EquilibriumEquations; 8.3.Hooke'sLaw; 9.MathematicalProcedures; 9.1.MathematicalProcedure1; 9.2.MathematicalProcedure2; 10.BoundaryConditions 10.1.SphericalParticle10.2.CellMatrix; 10.3.RadialStressp; 11.EnergyAnalysisofAnalyticalModels; 11.1.CombinationsofSolutions; 11.2.ApplicationtoSiC-Si3N4Ceramics; Conclusion; Acknowledgments; References; Chapter3ANALYTICALMODELOFTHERMALSTRESSESANDCRACKFORMATIONINTWO-COMPONENTANISOTROPICMATERIALS ; Abstract; 1.Introduction; 2.CellModelandCoordinateSystem; 3.NotationofSubscripts; 4.FundamentalEquations; 5.MathematicalProcedures; 6.BoundaryConditions; 6.1.SphericalParticle; 6.2.CellMatrix; 7.ThermalStresses; 7.1.SphericalParticle; 7.2.CellMatrix; 7.3.RadialStressp 8.AnalyticalModelofCrackFormation8.1.GeneralAnalysis; 8.2.CellModel; 8.3.DeterminationofW(ij)cpandW(ij); 8.3.1.Condition 01p(', )6= 01m(', ); 8.3.2.Condition 01p(', )= 01m(', )for = pm('); 8.4.TransformationsConcerningCrackinginPlanesxixj,xjxk,xkxi; 9.CrackFormationinYBaCuOSuperconductor; Conclusion; Appendix; Acknowledgments; References; Chapter 4 ANALYSIS ON THERMAL LOADS OF NOZZLE IN LOW-TEMPERATURE REACTOR PIPING ; Abstract ; Introduction ; 1. Buffer Method [1] ; 1.1. Analysis of Loads Exceeding Limits ; 1.2. Supports Adjusting Analysis ; 1.3. Brief Summary ; 2. Truncating Method [2] 2.1. Analysis of Loads Exceeding Limits and Supports Setting 2.2. Brief Summary; 3. Integrated Method [3] ; 3.1. Analysis of Loads Exceeding Limits and Supports Setting ; 3.3. Brief Summary ; Conclusion ; References ; Chapter 5 EFFECT OF THERMAL STRESS ON THE PERFORMANCES OF THE MULTI-BUNDLE INTEGRATED-PLANAR SOLID OXIDE FUEL CELLS IP-SOFC ; Abstract ; 1. Introduction ; 2. Presentation of an IP-SOFC; 2.1. Stack Description ; 2.2. Cell Description ; 3. Material Properties ; a. Electrolyte Yettria Stabilised Zirconia (YSZ); b. Anode Ni-YSZ ; c. Strontium-Doped Lanthanum Manganite (LSM) Thermal stresses. http://id.loc.gov/authorities/subjects/sh85134764 Contraintes thermiques. thermal stress. aat TECHNOLOGY & ENGINEERING / Engineering (General) bisacsh TECHNOLOGY & ENGINEERING / Reference bisacsh Thermal stresses fast Webb, Alfred R., editor. has work: Thermal Stresses: Design, Behavior and Applications (Text) https://id.oclc.org/worldcat/entity/E39PD3Jc7p7q6w6B4thHJkvHQ3 https://id.oclc.org/worldcat/ontology/hasWork Print version: Hauppauge, New York : Nova Science Publishers, Inc., [2016] 9781634853736 (DLC) 2016021225 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1365725 Volltext |
| spellingShingle | Thermal stresses : design, behavior and applications / THERMAL STRESSES DESIGN, BEHAVIOR AND APPLICATIONS ; THERMAL STRESSES DESIGN, BEHAVIOR AND APPLICATIONS ; CONTENTS ; PREFACE ; Chapter 1 DESIGN OPTIMIZATION OF PEM FUEL CELLS TO MINIMIZE THE MAXIMUM THERMAL STRESS; Abstract ; 1. Introduction ; 1.1. Background; 1.2. Durability ; 1.3. PEM Fuel Cells Assembly ; 1.4. PEM Fuel Cell Operation ; 2. PEM Fuel Cell Model ; 2.1. Solid Mechanics Model ; 2.1.1. Solid Mechanics Model During Assembly ; 2.1.2. Solid Mechanics Model During Operation ; 2.2. Thermal-Fluid Model ; 2.2.1. Gas Flow Channels ; 2.2.2. Gas Diffusion Layers 2.2.3. Catalyst Layers 2.2.4. Membrane ; 2.3. Computational Grid ; 3. Results and Discussion ; Conclusion ; References ; Chapter2ENERGYANALYSISOFANALYTICALMODELSOFTHERMALSTRESSESINCOMPOSITEMATERIALS ; Abstract; 1.Introduction; 2.Aims; 3.ReasonofThermalStresses; 4.CellModel; 5.Thermal-StressInducedRadialDisplacement; 6.Thermal-StressInducedElasticEnergy; 7.PrincipleofMinimumEnergy; 8.FundamentalEquations; 8.1.Cauchy'sEquations; 8.2.EquilibriumEquations; 8.3.Hooke'sLaw; 9.MathematicalProcedures; 9.1.MathematicalProcedure1; 9.2.MathematicalProcedure2; 10.BoundaryConditions 10.1.SphericalParticle10.2.CellMatrix; 10.3.RadialStressp; 11.EnergyAnalysisofAnalyticalModels; 11.1.CombinationsofSolutions; 11.2.ApplicationtoSiC-Si3N4Ceramics; Conclusion; Acknowledgments; References; Chapter3ANALYTICALMODELOFTHERMALSTRESSESANDCRACKFORMATIONINTWO-COMPONENTANISOTROPICMATERIALS ; Abstract; 1.Introduction; 2.CellModelandCoordinateSystem; 3.NotationofSubscripts; 4.FundamentalEquations; 5.MathematicalProcedures; 6.BoundaryConditions; 6.1.SphericalParticle; 6.2.CellMatrix; 7.ThermalStresses; 7.1.SphericalParticle; 7.2.CellMatrix; 7.3.RadialStressp 8.AnalyticalModelofCrackFormation8.1.GeneralAnalysis; 8.2.CellModel; 8.3.DeterminationofW(ij)cpandW(ij); 8.3.1.Condition 01p(', )6= 01m(', ); 8.3.2.Condition 01p(', )= 01m(', )for = pm('); 8.4.TransformationsConcerningCrackinginPlanesxixj,xjxk,xkxi; 9.CrackFormationinYBaCuOSuperconductor; Conclusion; Appendix; Acknowledgments; References; Chapter 4 ANALYSIS ON THERMAL LOADS OF NOZZLE IN LOW-TEMPERATURE REACTOR PIPING ; Abstract ; Introduction ; 1. Buffer Method [1] ; 1.1. Analysis of Loads Exceeding Limits ; 1.2. Supports Adjusting Analysis ; 1.3. Brief Summary ; 2. Truncating Method [2] 2.1. Analysis of Loads Exceeding Limits and Supports Setting 2.2. Brief Summary; 3. Integrated Method [3] ; 3.1. Analysis of Loads Exceeding Limits and Supports Setting ; 3.3. Brief Summary ; Conclusion ; References ; Chapter 5 EFFECT OF THERMAL STRESS ON THE PERFORMANCES OF THE MULTI-BUNDLE INTEGRATED-PLANAR SOLID OXIDE FUEL CELLS IP-SOFC ; Abstract ; 1. Introduction ; 2. Presentation of an IP-SOFC; 2.1. Stack Description ; 2.2. Cell Description ; 3. Material Properties ; a. Electrolyte Yettria Stabilised Zirconia (YSZ); b. Anode Ni-YSZ ; c. Strontium-Doped Lanthanum Manganite (LSM) Thermal stresses. http://id.loc.gov/authorities/subjects/sh85134764 Contraintes thermiques. thermal stress. aat TECHNOLOGY & ENGINEERING / Engineering (General) bisacsh TECHNOLOGY & ENGINEERING / Reference bisacsh Thermal stresses fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85134764 |
| title | Thermal stresses : design, behavior and applications / |
| title_alt | Thermal stresses (Webb) |
| title_auth | Thermal stresses : design, behavior and applications / |
| title_exact_search | Thermal stresses : design, behavior and applications / |
| title_full | Thermal stresses : design, behavior and applications / Alfred R. Webb, editor. |
| title_fullStr | Thermal stresses : design, behavior and applications / Alfred R. Webb, editor. |
| title_full_unstemmed | Thermal stresses : design, behavior and applications / Alfred R. Webb, editor. |
| title_short | Thermal stresses : |
| title_sort | thermal stresses design behavior and applications |
| title_sub | design, behavior and applications / |
| topic | Thermal stresses. http://id.loc.gov/authorities/subjects/sh85134764 Contraintes thermiques. thermal stress. aat TECHNOLOGY & ENGINEERING / Engineering (General) bisacsh TECHNOLOGY & ENGINEERING / Reference bisacsh Thermal stresses fast |
| topic_facet | Thermal stresses. Contraintes thermiques. thermal stress. TECHNOLOGY & ENGINEERING / Engineering (General) TECHNOLOGY & ENGINEERING / Reference Thermal stresses |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1365725 |
| work_keys_str_mv | UT thermalstresseswebb AT webbalfredr thermalstressesdesignbehaviorandapplications |