Nickel Base Single Crystals Across Length Scales is addresses the most advanced knowledge in metallurgy and computational mechanics and how they are applied to superalloys used as bare materials or with a thermal barrier coating system. Joining both aspects, the book helps readers understand the mechanisms driving properties and their evolution from fundamental to application level. These guidelines are helpful for students and researchers who wish to understand issues and solutions, optimize materials, and model them in a cross-check analysis, from the atomistic to component scale. The book…mehr
Nickel Base Single Crystals Across Length Scales is addresses the most advanced knowledge in metallurgy and computational mechanics and how they are applied to superalloys used as bare materials or with a thermal barrier coating system. Joining both aspects, the book helps readers understand the mechanisms driving properties and their evolution from fundamental to application level. These guidelines are helpful for students and researchers who wish to understand issues and solutions, optimize materials, and model them in a cross-check analysis, from the atomistic to component scale. The book is useful for students and engineers as it explores processing, characterization and design.
Professor Loeïz Nazé is an associate professor at the Mines ParisTech in the Materials Center. His areas of expertise include metallurgy and crystallography and his current areas of research include metallurgy, microstructures, and plastic deformation. Professor Naze studied engineering at the Lille University School of Engineering.
Vincent Maurel, Ph.D. is a senior scientist with the Centre des Materiaux at the MINES Paris Tech. His areas of research include fatigue of materials at high temperature, mono and poly-crystalline superalloys, and analysis of coatings for turbine blades.
Inhaltsangabe
Part 1: Introduction and Basics 1. Introduction, success in bridging and specific problems 2. Past, present and future of SX superalloys 3. Fundamentals: Thermodynamics and kinetics 4. Elastic properties, tensor properties 5. Microstructure and chemical characterization, (incl. Image Analysis) 6. Mechanical characterization 7. Elementary deformation: High temperature plasticity 8. Elementary damage process: Creep rupture, fatigue initiation, crack propagation
Part 2: Building SX parts 9. Processing (SX, DS), solidification and heat treatment 10. Ageing (microstructure evolution) 11. Refurbishment 12. Coated SX: High temperature and corrosion protection, thermal insulation
Part 3: Appropriate scale modeling, scale bridging methods 13. AM, MD, DFT atomic scale 14. DDD 15. Phase field 16. Crystal plasticity models: Dislocation based and Phenomenological approach 17. Macroscopic microstructure sensitive mechanical modeling 18. Crystal plasticity and damage at notches and crack tips in single crystal nickel-based alloys
Part 4: Application to engineering cases 19. Finite element implementation of crystal plasticity models in large deformation 20. Complex load spectra including full physical coupling and integrating advanced assessment procedures into component design (component design and life extension
Part 1: Introduction and Basics 1. Introduction, success in bridging and specific problems 2. Past, present and future of SX superalloys 3. Fundamentals: Thermodynamics and kinetics 4. Elastic properties, tensor properties 5. Microstructure and chemical characterization, (incl. Image Analysis) 6. Mechanical characterization 7. Elementary deformation: High temperature plasticity 8. Elementary damage process: Creep rupture, fatigue initiation, crack propagation
Part 2: Building SX parts 9. Processing (SX, DS), solidification and heat treatment 10. Ageing (microstructure evolution) 11. Refurbishment 12. Coated SX: High temperature and corrosion protection, thermal insulation
Part 3: Appropriate scale modeling, scale bridging methods 13. AM, MD, DFT atomic scale 14. DDD 15. Phase field 16. Crystal plasticity models: Dislocation based and Phenomenological approach 17. Macroscopic microstructure sensitive mechanical modeling 18. Crystal plasticity and damage at notches and crack tips in single crystal nickel-based alloys
Part 4: Application to engineering cases 19. Finite element implementation of crystal plasticity models in large deformation 20. Complex load spectra including full physical coupling and integrating advanced assessment procedures into component design (component design and life extension
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