Abstract
The critical hydrogen concentration for hydrogen embrittlement in iron aluminide, Fe3Al has been estimated (0.42 wppm). The estimated critical hydrogen content has been correlated to structural aspects of the decohesion mechanism of hydrogen embrittlement.
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Agarwal A and Balasubramaniam R 1996Practical Metallography 33 453
Agarwal A, Balasubramaniam R and Bhargava S 1996Metall. Mater. Trans. A27 2985
Baker I, Nagpal P, Liu F and Munroe P 1991Acta Metall. 39 1637
Balasubramaniam R 1996Scr. Mater. 34 127
Balasubramaniam R 1997J. Alloy Compds. 253-254 203
Balasubramaniam R 1999J. Alloy Compds. 293-295 279
Chiu H, Qiao L and Mao X 1996Scr. Mater. 34 963
Hirth J P 1980Metall. Trans. A11 861
Kameda J and Jokl M L 1982Scr. Metall. 16 325
Li J C M and Liu C T 1992Scr. Metall. Mater. 27 1701
Liu C T, Lee E H and McKamey C G 1989Scr. Metall. 23 875
Liu C T and Kumar K S 1993J. Metals 45 38
McKamey C G and Liu C T 1990Scr. Metall. Mater. 24 2119
McKamey C G and Pierce D H 1993Scr. Metall. Mater. 28 1173
Oriani R A 1972Ber. Bunsenges 76 848
Tabata T and Birnbaum H K 1984Scr. Metall. 18 231
Vehoff H and Rothe W 1983Acta Metall. 31 1781
Vehoff H and Klameth H K 1985Acta Metall. 33 955
West J M 1970 inElectrodeposition and corrosion processes (London: Van Nostrand Reinhold Co), 2nd ed. p. 56
Yusheng C, Ziyong Z, Sue K and Wei K 1995Scr. Mater. 34 781
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Priyadarshi, A., Balasubramaniam, R. On critical hydrogen concentration for hydrogen embrittlement of Fe3Al. Bull Mater Sci 24, 559–562 (2001). https://doi.org/10.1007/BF02706731
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DOI: https://doi.org/10.1007/BF02706731