Thermomechanical fatigue and fracture
著者
書誌事項
Thermomechanical fatigue and fracture
(International series on advances in fracture mechanics, 7)
WIT Press, c2002
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Thermomechanical fatigue & fracture
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注記
Includes bibliographical references
内容説明・目次
内容説明
Thermal and mechanical fatigue leads to initiation and growth of cracks in many structures such as pressure vessels, nuclear reactors, high temperature engines, electronic packaging and dental materials. This book brings together state-of-the-art contributions from leading researchers in the field.
目次
- Preface Chapter 1 - Thermomechanical crack growth using boundary elements Introduction
- DBEM for steady state problems
- Numerical implementation
- DBEM for transient problems
- Crack growth simulation
- Numerical examples
- Conclusions
- Appendix Chapter 2 - Finite element modelling of thermo-mechanical fracture: theory and case studies Introduction
- Development of a compatible and complete crack tip element
- Determination of stress intensity factor at crack tip
- Analysis of a bimaterial strip having a crack tip at interface
- Analysis of a power plant nozzle with kinked crack
- Analysis of PWR vessel under pressurized thermal shock
- Conclusions Chapter 3 - Prediction of crack initiation and growth under thermal fatigue Statement
- Experimental procedures
- Crack initiation
- Crack growth prediction
- Perspectives
- Conclusions Chapter 4 - Predicting crack growth along polymer interfaces due to water attack and thermal fatigue Introduction
- Hydro-thermal fatigue testing of polymer interfaces
- Modeling for Hydrothermal fatigue crack growth
- Sub-critical crack growth along PI/epoxy interface
- Development of a model for stress assisted water attack
- Predictions
- Discussion
- Conclusions
- Appendix I Chapter 5 - The saturation of thermomechanical fatigue damage in brittle materials Introduction
- Experimental techniques for characterizing microcrack damage
- Thermal shock/thermal fatigue
- Effects of specimen size, environment and microstructure on thermal shock/thermal fatigue damage
- Summary and conclusions Chapter 6 - Plasticity induced heating in the fracture and cutting of metals Introduction
- Theory of thermomechanical coupling in solids
- Thermal dissipation of plastic work
- Dynamic crack growth
- Stable crack tearing
- Transient thermal fields in metal cutting
- Summary and conclusions Chapter 7 - Tensile ductility and fracture of aluminum-SiC composites under changing temperature conditions Introduction
- Microstructure of discontinuously reinforced Al-SiC composites
- Creep of Al-SiC composites under isothermal conditions
- Creep of Al-SiC composites under changing temperature (thermal cycling) conditions
- Tensile elongation
- Fracture behavior
- Model for fracture elongation of Al-SiC composites under thermal cycling creep conditions
- Further remarks
- Conclusions
- List of Symbols Chapter 8 - Effects of residual stress on thermal fatigue phenomena of aluminum die casting dies Introduction
- Present state in thermal fatigue of aluminum die casting dies
- Measurements of residual stress and observations of heat checking on the actual die
- Thermal fatigue behavior on various hot work die steels
- Thermal fatigue behavior for die steels and maraging die steels
- Thermal fatigue behavior on nitriding and peening-nitriding-peenin treated die steels
- Thermal fatigue behavior of multiple nitrided dies steel specimens
- Thermal fatigue behavior hot work die steels treated by sulphonitriding
- Effects of thermal fatigue phenomenon on hot work die steels to surface formed PVD, CVD and PCVD thin films
- Thermal fatigue behavior of surface on electric discharge machined hot work die steels
- Application examples
- Conclusion
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