Recent advances on hydrogen embrittlement of structural materials-Reference-Cited by-同舟云学术

Recent advances on hydrogen embrittlement of structural materials

Published:2015-11 Issue:1-2 Volume:196 Page:223-243
ISSN:0376-9429
Container-title:International Journal of Fracture
language:en
Short-container-title:Int J Fract

Author:

Dadfarnia Mohsen,Nagao Akihide,Wang Shuai,Martin May L.,Somerday Brian P.,Sofronis Petros

Publisher

Springer Science and Business Media LLC

Subject

Mechanics of Materials,Modeling and Simulation,Computational Mechanics

Link

http://link.springer.com/content/pdf/10.1007/s10704-015-0068-4.pdf

Reference79 articles.

1. Abe N, Suzuki H, Takai K, Hagihara Y, Sueyoshi H, Ishikawa N (2010) Hydrogen desorption spectra of $$\upalpha $$ α -Fe including carbon using thermal desorption spectrometer detected from low-temperature. In: CAMP-ISIJ. The 159th Iron and Steel Institute of Japan (ISIJ) Meeting, Ibaraki, Japan, Mar 28–30, 2010, vol 23

2. Abe N, Suzuki H, Takai K, Ishikawa N, Sueyoshi H (2011) Identification of hydrogen trapping sites, binding energies, and occupation ratios at vacancies, dislocations and grain boundaries in iron of varying carbon content. Materials Science and Technology (MS&T) 2011. The Minerals, Metals and Materials Society, Warrendale, PA, pp 1277–1284

3. Beachem CD (1972) New model for hydrogen-assisted cracking (hydrogen embrittlement). Metall Trans 3(2):437–451. doi: 10.1007/BF02642048

4. Bechtle S, Kumar M, Somerday BP, Launey ME, Ritchie RO (2009) Grain-boundary engineering markedly reduces susceptibility to intergranular hydrogen embrittlement in metallic materials. Acta Mater 57(14):4148–4157. doi: 10.1016/j.actamat.2009.05.012

5. Bernstein IM, Thompson AW (1984) The role of microstructure in hydrogen embrittlement. In: Gibala R, Hehemann RF (eds) Hydrogen embrittlement and stress corrosion cracking. American Society for Metals, Metal Park, OH, pp 135–152

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