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Influence of Al, Cu and Ni Additions on Mechanical Properties of Hot-Rolled Fe-9Mn-0.2C Medium-Manganese Steels

Young-Chul Yoon Sang-Gyu Kim Sang-Hyeok Lee Byoungchul Hwang
Archives of Metallurgy and Materials | 2021 | vol. 66 | No 4 | 1007-1011 | DOI: 10.24425/amm.2021.136415
Słowa kluczowe medium-manganese steel hot-rolled microstructure strength impact toughness
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Abstrakt

The microstructure and mechanical properties of hot-rolled Fe-9Mn-0.2C medium-manganese steels with different Al, Cu, and Ni contents were investigated in this study. Based on the SEM, XRD, and EBSD analysis results, the microstructure was composed of martensite, band-type delta ferrite, and retained austenite phases depending on the Al, Cu, and Ni additions. The tensile and Charpy impact test results showed that the sole addition of Al reduced significantly impact toughness by the presence of delta-ferrite and the decrease of austenite stability although it increased yield strength. However, the combined addition of Al and Cu or Ni provided the best combination of high yield strength and good impact toughness because of solid solution strengthening and increased austenite stability.
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Bibliografia

[1] S.I. Lee, S.Y. Lee, J. Han, B. Hwang, Mater. Sci. Eng. A 742, 334-343 (2019).
[2] S.I. Lee, S.Y. Lee, S.G. Lee, H.G. Jung, B. Hwang, Met. Mater. Int. 24, 1221-1231 (2018).
[3] S.Y. Lee, S.I. Lee, B. Hwang, Mater. Sci. Eng. A. 711, 22- 28 (2018).
[4] S.I. Lee, J. Lee, B. Hwang, Mater. Sci. Eng. A. 758, 56-59 (2019). 1011
[5] H . Gwon, S. Shin, J. Jeon, T. Song, S. Kim, B.C.D. Cooman, Met. Mater. Int. 25, 594-605 (2019).
[6] Y. Kwon, J.H. Hwang, H.C. Choi, T.T.T. Trang, B. Kim, A. Zargaran, N.J. Kim, Met. Mater. Int. 26, 75-82 (2020).
[7] M . Kuzmina, D. Ponge, D. Raabe, Acta Mater. 86, 182-192 (2015).
[8] H . Choi, S. Lee, J. Lee, F. Barlat, B.C.D. Cooman, Mater. Sci. Eng. A 687, 200-210 (2017).
[9] Z.H. Cai, H. Ding, R.D.K. Misra, H. Kong, H.Y. Wu, Mater. Sci. Eng. A 595, 86-91 (2014).
[10] Z.C. Li, H. Ding, Z.H. Cai, Mater. Sci. Eng. A 639, 559-566 (2015).
[11] T.W. Hong, S.I. Lee, J.H. Shim, J. Lee, M.G. Lee, B. Hwang, Korean J. Mater. Res. 28, 570-577 (2018).
[12] M .T. Kim, T.M. Park, K.H. Baik, W.S. Choi, P.P. Choi, J. Han, Acta. Mater. 164, 122-134 (2019).
[13] M . Soleimani, H. Mirzadeh, C. Dehghanian, Met. Mater. Int. 26, 882-890 (2020).
[14] S. H. Kim, H. Kim, N. J. Kim, Nature 518, 77-19 (2015).
[15] J.H. Hollomon, Trans. Metall. Soc. AIME, 162, 268-290 (1945).
[16] G E. Dieter, McGraw-Hill, Mechanical Metallurgy, London 1988.
[17] J. Chen, M. Lv, S. Tang, Z. Liu, G. Wang, Mater. Charact. 106, 108-111 (2015).
[18] Y.K. Lee, J. Han, Mater. Sci, Technol. 31, 843-856 (2015).
[19] J. Han, A.K. Silva, D. Ponge, D. Raabe, S.M. Lee, Y.K. Lee, S.I. Lee, B. Hwang, Acta Mater. 122, 199-206 (2017).
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Autorzy i Afiliacje

Young-Chul Yoon
1
ORCID: ORCID
Sang-Gyu Kim
1
ORCID: ORCID
Sang-Hyeok Lee
1
ORCID: ORCID
Byoungchul Hwang
1
ORCID: ORCID
  1. Seoul National University of Science and Technology, Department of Materials Science and Engineering, 232, Gongneung-Ro., Nowon-gu, Seoul 01811, Korea

Effect of Pre-strain on Hydrogen Embrittlement in Intercritically Annealed Fe-6.5Mn-0.08C Medium-Mn steels

Sang-Gyu Kim Young-Chul Yoon Seok-Woo Ko Byoungchul Hwang
Archives of Metallurgy and Materials | 2022 | vol. 67 | No 4 | 1491-1495 | DOI: 10.24425/amm.2022.141080
Słowa kluczowe medium-manganese steel hydrogen embrittlement electrochemical charging Pre-strain Slow strain-rate tensile (SSRT) test
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Abstrakt

The present research deals with the effect of pre-strain on the hydrogen embrittlement behavior of intercritically annealed medium-Mn steels. A slow strain-rate tensile test was conducted after hydrogen charging by an electrochemical permeation method. Based on EBSD and XRD analysis results, the microstructure was composed of martensite and retained austenite of which fraction increased with an increase in the intercritical annealing temperature. The tensile test results showed that the steel with a higher fraction of retained austenite had relatively high hydrogen embrittlement resistance because the retained austenite acts as an irreversible hydrogen trap site. As the amount of pre-strain was increased, the hydrogen embrittlement resistance decreased notably due to an increase in the dislocation density and strain-induced martensite transformation.
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Autorzy i Afiliacje

Sang-Gyu Kim
1
ORCID: ORCID
Young-Chul Yoon
1
ORCID: ORCID
Seok-Woo Ko
1
ORCID: ORCID
Byoungchul Hwang
1
ORCID: ORCID
  1. Seoul National University of Science and Technology, Department of Materials Science and Engineering, Seoul, 01811, Republic of Korea

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