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Hydrogen Embrittlement and Microdamage of 316L Steel Affecting the Structural Integrity, Durability and Safety of Pipelines

  • Published:2020-09-11 Issue: Volume: Page:135-143
  • ISSN:2366-2557
  • Container-title:Lecture Notes in Civil Engineering
  • language:
  • Short-container-title:

Author:

Toribio Jesús,Ayaso Javier

Publisher

Springer International Publishing

Reference15 articles.

1. NET Status Report: Commission of the European communities. Directorate General XII-Fussion Programme, Brussels (1985)

2. Caskey Jr., G.R.: Hydrogen damage in stainless steel. In: Environmental Degradation of Engineering Materials in Hydrogen, 1981, Virginia Polytechnic Institute, Blacksburg, VA

3. Perng, T.P, Huang, J.H., Altstetter, C.J.: Hydrogen-induced cracking of stainless steels. In: 4th International Conference on Hydrogen and Materials, 1988, Beijing, China

4. Hazarabedian, A., Ovejero-García, J.: Effects of strain rate and prior heat treatments on hydrogen embrittlement of 316-L SS and 304 SS in aqueous sulfide environment. In: 4th International Conference on the Effect of Hydrogen on Behaviour of Materials, 1989, Jackson Lake, Wyoming, USA

5. Eliezer, D.: Hydrogen assisted cracking in Type 304L and 316L stainless steel. In: 3rd International Conference on the Effect of Hydrogen on Behaviour of Materials, 1981, AIME, USA
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