Advances in hydrogen embrittlement study
Author(s)
Bibliographic Information
Advances in hydrogen embrittlement study
(Advanced structured materials, 143)
Springer, c2021
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Description and Table of Contents
Description
The book presents a collection of chapters on the current problems associated with hydrogen damage. It discusses the effect of hydrogen on material properties and its interaction with the material microstructure, physical features of hydrogen transport in metals and alloys, as well as applicable methods of measuring concentration of hydrogen in solid media.
Table of Contents
Chapter 1. Short-range-ordering effects on hydrogen embrittlement of austenitic steels - a review
Motomichi Koyama
Chapter 2. The effect of hydrogen charging on TDS and bond energies
Anastasiia A. Chevrychkina, Vladimir A. Polyanskiy, Evgeniy A. Varshavchik
Chapter 3. The key role of dedicated experimental methodologies in revealing the interaction between hydrogen and the steel microstructure
Tom Depover and Kim Verbeken
Chapter4. A contribution on the hydrogen diffusion controlled failure of notched samples
Andreas Drexler, Josef Domitner, Christof Sommitsch
Chapter 5. Establishing elastic-diffusion properties interrelation for a material with microstructure typical of HIC
Ksenia P. Frolova, Elena N. Vilchevskaya
Chapter 6. Influence of linear elastic stresses on hydrogen diffusion into metals
Polina M. Grigoreva, Vladimir A. Polyanskiy, Elena N. Vilchevskaya
Chapter 7. Effect of hydrogen concentration and strain rate on hydrogen embrittlement of ultra-fine grained low carbon steel
Evgeniy D. Merson, Pavel N. Myagkikh, Gennady V. Klevtsov, Dmitri L. Merson, Alexei Yu. Vinogradov
Chapter 8. Acoustoelasticity due to hydrogen embrittlement and skin effects
Dmitriy A. Tretyakov
Chapter 9. Characterization of hydrogen trapping systems and HIC susceptibility of X60 steel by traditional and innovative methodologies
Renzo Valentini, Francesco Aiello, Linda Bacchi, Fabio Biagini, Serena Corsinovi, Michele Villa
Chapter 10. Hydrogen charging of samples printed on 3D, against samples of conventional materials
Yuriy A. Yakovlev
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