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Mechanical Properties of Stainless Steel Spring Wire after Hydrogen Absorption under High Hydrogen Pressure Atmosphere
Technical Paper
2003-01-0920
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The demand for a fuel cell as a clean energy source will increase significantly in the automotive and home appliance field. Structural steels (especially, spring steels ), used under high hydrogen pressure in the fuel cell may cause hydrogen embrittlement and delayed fractures; therefore, there is a strong demand for the development of new materials which have excellent resistance to hydrogen embrittlement. The authors have developed an austenitic stainless steel spring wire that maintains high fatigue strength even after hydrogen absorption
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Fujino, Y., Izumida, H., and Kawabe, N., "Mechanical Properties of Stainless Steel Spring Wire after Hydrogen Absorption under High Hydrogen Pressure Atmosphere," SAE Technical Paper 2003-01-0920, 2003, https://doi.org/10.4271/2003-01-0920.Also In
References
- Whiteman B. Troiano R. Corrosion 21 53 1965
- Holzworth M.L. Corrosion 24 108 1969
- mitani S. J,Soc.Mat.Sci Japan 41 468 1415 1421 1992
- Wallen D. Materials Performance 26 38 1987
- Benson, R. B. Jr. Dann R. K. Roberts, L. W. Jr. Trans. TMS-AIME 242 2199 1968
- Briant C.L. Met. Trans. 9A 731 1978
- Angel T. J.Iron Steel Inst. 165 1954