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High Pressure Research
An International Journal
Volume 44, 2024 - Issue 2
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Articles

Strong resistance to hydrogen embrittlement of high-performance superalloy MP35N under 200 MPa (≈30,000 psi) H2 gas pressure

S. Klotza IMPMC, Sorbonne UniversitéParis, FranceCorrespondence[email protected]
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,
L. Amanda IMPMC, Sorbonne UniversitéParis, France;b Laboratoire de Biologie des Organismes et Ecosystèmes Aquatiques (BOREA), Sorbonne Université, Paris, FranceView further author information
,
E. Lelièvre-Bernac Institut Laue-LangevinGrenoble, FranceView further author information
,
R. Khasanovd Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, Villigen PSI, SwitzerlandView further author information
,
M. Elenderd Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, Villigen PSI, SwitzerlandView further author information
,
B. Annighöfere Laboratoire Léon Brillouin, CE Saclay, Saclay, FranceView further author information
,
L. Delbesa IMPMC, Sorbonne UniversitéParis, FranceView further author information
,
J. Mauricec Institut Laue-LangevinGrenoble, FranceView further author information
,
C. Payrec Institut Laue-LangevinGrenoble, FranceView further author information
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B. Doisneaua IMPMC, Sorbonne UniversitéParis, FranceView further author information
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Pages 116-126 | Received 05 Jan 2024, Accepted 02 Apr 2024, Published online: 18 Apr 2024

References

  • Nagumo M. Fundamentals of hydrogen embrittlement. Heidelberg: Springer Verlag; 2016.
  • Gibala R, Hehemann RF. Hydrogen embrittlement and stress corrosion cracking. Russell Township (OH): American Society of Metals; 1984.
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  • San Marchi C, Somerday BP. Technical reference for hydrogen compatibility of materials. Sandia National Laboratory; 2012. (SANDIA Report SANSD2012-7321).
  • Jewett RP, Walter RJ, Chandler WT, et al. Hydrogen environment embrittlement of metals. In: National Aeronautics and Space Administration, editors. NASA Contractor Report CR-2163. Washington (DC): National Aeronautics and Space Administration; 1973. p. 1–243.
  • Williams TC. MP35N: a superalloy for critical oil and gas applications. Carpenter Technology White paper (CRS Holdings). 2019. Available from: https://www.carpentertechnology.com/hubfs/PDFs/MP35NASuperalloyforCriticalOilandGasApplications.pdf.
  • Lee JA. Gaseous hydrogen embrittlement of materials in energy technology. RP Gangloff, BP Somerday, editors. Sawston, UK: Woodhead Publishing Ltd; 2012. p. 624–667. doi:10.1533/9780857093899.3.624
  • Klotz S, Philippe J, Bull CL, et al. A 3 kbar hydrogen-compatible gas loader for Paris Edinburgh cells. High Press Res. 2013;33:214–220. doi:10.1080/08957959.2013.773323
  • Standard test method for determination of susceptibility of metals to embrittlement in hydrogen containing environments at high pressure, high temperature, or both. G142-98 (reapproved 2016). West Conshohocken (PA): ASTM International; 2016.
  • Prasad MJNV, Reiterer MW, Kumar KS. Microstructure and mechanical behavior of an as-drawn MP35N alloy wire. Mater Sci Eng A. 2014;610:326–337. doi:10.1016/j.msea.2014.05.046
  • Ishmaku A, Han K. Characterization of cold-rolled and aged MP35N alloys. Mater Charact. 2001;42:139–148. doi:10.1016/S1044-5803(01)00162-0
  • Durbin DJ, Malardier-Jugroot C. Review of hydrogen storage techniques for on board vehicle applications. Int J Hydrogen Energy. 2013;38:14595–14617. doi:10.1016/j.ijhydene.2013.07.058
  • Hagi H. Diffusion coefficients of hydrogen in Ni-Cu and Ni-Co alloys. Trans Jpn Inst Met. 1986;27:233–240. doi:10.2320/matertrans1960.27.233

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