Abstract
The S-N fatigue behavior of Fe15Mn (Fe-0.7C-15Mn-2Al) austenitic steel, including base metal and butt-welded joint, was investigated at 298 K and 110 K, and the results were compared to those of STS304L (Fe-1Si-2Mn- 20Cr-10Ni) counterparts. Both specimens showed improved resistance to S-N fatigue with decreasing temperature from 298 K to 110 K. The resistance to S-N fatigue of Fe15Mn steel was greater at 298 K, while it was lower at 110 K, than STS304L steel. Unlike STS304L, Fe15Mn steel did not show any notable transformation induced plasticity and twining-induced plasticity effect under fatigue loading at ambient and cryogenic temperatures. The S-N fatigue behavior of Fe15Mn steel was strongly dependent on tensile strength at both ambient and cryogenic temperatures. Similar S-N fatigue behavior was also observed for the butt-welded joints of Fe15Mn steel. The S-N fatigue behavior of Fe15Mn steel and its weld was discussed based on the fractographic and microscopic observations.
Article PDF
Similar content being viewed by others
Avoid common mistakes on your manuscript.
References
O. Bouaziz, S. Allain, C. P. Scott, P. Cugy, and D. Barbier, Curr. Opin. Solid State Mater. Sci. 15, 141 (2011).
D. H. Jeong, S. G. Lee, W. K. Jang, J. K. Choi, Y. J. Kim, and S. S. Kim, Metall. Mater. Trans. A 44A, 4601 (2013).
R. Ueji, N. Tsuchida, D. Terada, N. Tsuji, Y. Tanaka, A. Takemura, and K. Kunishige, Scr. Mater. 59, 963 (2008).
L. W. Tsay, Y. C. Chen, and S. L. I. Chan, Int. J. Fatigue, 23, 103 (2001).
M. R. Krishnadev and R. Ghosh, Metall. Mater. Trans. A 10A, 1941 (1979).
J. H. Baek, C. M. Kim, W. S. Kim, and Y. T. Kho, Korean J. Met. Mater. 7, 579 (2001).
D. H. Jeong, S. G. Lee, I. S. Seo, J. Y. Yoo, and S. S. Kim, Met. Mater. Int. 21, 14 (2015).
D. H. Jeong, S. G. Lee, I. S. Seo, J. Y. Yoo, and S. S. Kim, Met. Mater. Int. 21, 22 (2015).
I. Karaman, H. Sehitoglu, A. J. Beaudoin, Y. I. Chumlyakov, H. J. Maier, and C. N. Tome, Acta Mater. 48, 2031 (2000).
I. Karaman, H. Sehitoglu, K. Gall, Y. I. Chumlyakov, and H. J. Maier, Acta Mater. 48, 1345 (2000).
S. Curtze and V. T. Kuokkala, Acta Mater. 58, 5129 (2010).
W. C. Leslie and G. C. Rauch, Metall. Mater. Trans. A 9A, 4334 (1978).
K. Ishida and T. Nishizawa, Trans. Jpn. Inst. Met. 15, 225 (1974).
R. E. Schramm and R. P. Reed, Metall. Mater. Trans. A 6A, 1345 (1975).
T. Niendorf, F. Rubitschek, H. J. Maier, J. Niendorf, H. A. Richard, and A. Frehn, Mater. Sci. Eng. A 527, 2412 (2010).
K. T. Park, K. G. Jin, S. H. Han, S. W. Hwang, K. Y. Choi, and C. S. Lee, Mater. Sci. Eng. A 527, 3651 (2010).
D. Canadinc, H. Sehitoglu, H. J. Maier, and Y. I. Chumlyakov, Acta Mater. 53, 1831 (2005).
S. I. Hong and C. Laird, Acta Metall. 38, 1581 (1990).
W. S. Owen and M. Grujicic, Acta Mater. 47, 111 (1999).
G. Frommeyer, U. Brüx, and P. Neumann, ISIJ Int. 43(3), 438 (2003).
A. Dumay, J.P. Chateau, S. Allain, S. Migot, and O. Bouaziz, Mater. Sci. Eng. A 184, 483 (2008).
A. S. Hamada, L. P. Karjalainen, and M. C. Somani, Mater. Sci. Eng. A 467, 114 (2007).
J. K. Kim, L. Chen, H. S. Kim, S. K. Kim, Y. Estrin, and B. C. de Cooman, Metall. Mater. Trans. A 40A, 3147 (2009).
Y. S. Han and S. H. Hong, Mater. Sci. Eng. A 222, 76 (1997).
S. Allain, J. P. Chateau, O. Bouaziz, S. Migot, and N. Guelton, Mater. Sci. Eng. A 387, 158 (2004).
T. Niendorf, C. Lotze, D. Canadinc, A. Frehn, and H. J. Maier, Mater. Sci. Eng. A 499, 518 (2009).
A. S. Hamada, L. P. Karjalainen, and J. Puustinen, Mater. Sci. Eng. A 517, 68 (2009).
T. Niendorf, D. Canadinc, H. J. Maier, and I. Karaman, Scr. Mater. 60, 344 (2009).
S. Mahajan and G. Y. Chin, Acta Metall. 21, 1353 (1973).
E. El-Danaf, S. R. Kalidindi, and R. Doherty, Metall. Mater. Trans. A 30A, 1223 (1999).
Z. S. Basinski and S. J. Basinski, Acta Metall. 33, 1307 (1985).
L. P. Karjalainen, T. Taulavuori, M. Sellman, and A. Kyröläinen, Steels Res. Int. 79, 404 (2008).
G. Baudry and A. Pineau, Mater. Sci. Eng. 28, 229 (1977).
ASTM Standard E466, Standard Practice for Conduction Force Controlled Constant Amplitude Axial Fatigue test of Metallic Materials, Annual Book of ASTM Standards, 03.01 (2002).
ASM International Handbook Committee, ASM Handbook 9- Metallography and Microstructures 2004, ASM International, 9, 1671 (1985).
S. S. Kim, J. K. Kwon, Y. J. Kim, W. K. Jang, S. L. Lee, and J. K. Choi, Met. Mater. Int. 19, 1 (2013).
D. H. Jung, J. K. Kwon, N. S. Woo, Y. J. Kim, M. Goto, and S. S. Kim, Metall. Mater. Trans. A 45A, 654 (2014).
Z. Mei and J. W. Morris Jr., Metall. Mater. Trans. A, 21A 3137 (1990).
J. W. Morris Jr., J. W. Chan, and Z. Mei, Fourteenth International Cryogenic Engineering Conference and International Cryogenic Materials Conference, p.1, Elsevier Science Inc., Kiev, Ukraine (1992).
F. Forouzan, A. Najafizadeh, A. Kermanpur, A. Hedayati and R. Surkialiabad, Mater. Sci. Eng. A 527, 7334, (2010).
D. T. Pierce, J. A. Jiménez, J. Bentley, D. Raabe, C. Oskay, and J.E. Wittig, Acta Mater. 68, 238 (2014).
A. Saeed-Akbaari, J. Imlau, U. Prahl, and W. Bleck, Metall. Mater. Trans. A 40A, 3076 (2009).
S. S. Kim, J. K. Kwon, Y. J. Kim, W. K. Jang, S. G. Lee, and J. K. Choi, Metall. Mater. Int. 19, 1 (2013).
J. K. Kwon, D. H. Ahn, D. H. Jeong, Y. J. Kim, N. S. Woo, and S. S. Kim, Korean J. Met. Mater. 52, 757 (2014).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Jeong, D., Park, T., Lee, J. et al. Ambient and cryogenic S-N fatigue behavior of Fe15Mn steel and its weld. Met. Mater. Int. 21, 453–460 (2015). https://doi.org/10.1007/s12540-015-4397-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12540-015-4397-7