Stress Corrosion Cracking: Theory and Practice, Second Edition provides a cutting-edge overview of the stress corrosion cracking (SCC) field as well as numerous case studies in over ten different industries (such as refineries and biomaterials) to aid corrosion researchers and engineers in their work. This updated edition has been revised to include new insights on SCC prevention technologies, electrochemical aspects of SCC, hydrogen permeation and related techniques, and SCC in a variety of materials and settings, including high strength steels, ceramics and glasses, biomaterials, and more. Particular emphasis is placed on the role of hydrogen in metal deformation behavior.This new edition provides a cutting-edge overview of the stress corrosion cracking (SCC) field as well as numerous case studies in over ten different industries (such as refineries and biomaterials) to aid corrosion researchers and engineers in their work. It includes new insights on SCC prevention technologies, electrochemical aspects of SCC, hydrogen permeation and related techniques, and SCC in a variety of materials and settings, including high strength steels, ceramics and glasses, biomaterials, and more. Updated to include new insights on electrochemical aspects of stress corrosion cracking (SCC), hydrogen embrittlement, in situ and ex situ techniques for SCC research, computational research for environmentally assisted cracking (EAC), and much moreDiscusses new experimental methodologies and computational modelsFeatures case studies in over ten different fields INDICE: Part I Fundamental aspects of stress corrosion cracking and hydrogen embrittlement 1. Mechanistic and fractographic aspects of stress-corrosion cracking 2. Electrochemical aspects of stress corrosion cracking 3. Hydrogen embrittlement phenomena and mechanisms 4. New perspectives in hydrogen embrittlement or EAC Part II Test methods for determining stress corrosion cracking susceptibilities 5. Testing and evaluation methods for stress corrosion cracking in metals 6. Advanced in situ and ex-situ techniques for SCC research 7. Computational research on EAC 8. Hydrogen permeation and related techniques 9. SCC prevention technologies and long-term operation Part III Stress corrosion cracking in specific materials 10. Stress corrosion cracking in low and medium strength carbon steels 11. Stress corrosion cracking in stainless steels 12. Factors affecting stress corrosion cracking and fundamental mechanistic understanding of stainless steels 13. Stress corrosion cracking in high strength steels 14. Stress corrosion cracking of austenitic stainless and ferritic steel weldments 15. Stress corrosion cracking in nickel-based alloys 16. Stress corrosion cracking in aluminum alloys 17. Stress corrosion cracking in magnesium alloys 18. Stress corrosion cracking and hydrogen-assisted cracking in titanium alloys 19. Stress corrosion cracking in copper and copper-based alloys 20. Stress corrosion cracking in polymer composites 21. Stress corrosion cracking in ceramics and glasses 22. Stress corrosion cracking in bio-materials Part IV Environmentally assisted cracking problems in various industries 23. Stress corrosion cracking in boilers and cooling water systems 24. Environmentally-assisted cracking in oil and gas production 25. Stress corrosion cracking in aerospace vehicles 26. Prediction of stress corrosion cracking in nuclear power systems 27. Failures of structures and components by metal-induced embrittlement 28. Stress corrosion cracking in pipelines 29. SCC in refineries 30. Hydrogen transportation and storage 31. Machine Learning, Data Science/Base
- ISBN: 978-0-443-15612-0
- Editorial: Woodhead Publishing
- Encuadernacion: Rústica
- Páginas: 880
- Fecha Publicación: 01/04/2025
- Nº Volúmenes: 1
- Idioma: Inglés