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Oxide-dispersion-strengthened high-entropy alloys were produced by hot-pressing a ball-milled mixture of Y2O3 and atomized CoCrFeMnNi powder. The effect of milling duration on grain size reduction, oxide formation behavior, and the resulting mechanical properties of the alloys was studied. Both the alloy powder size and Y2O3 particle size decreased with milling time. Moreover, the alloy powder experienced severe plastic deformation, dramatically generating crystalline defects. As a result, the grain size was reduced to ~16.746 nm and in-situ second phases (e.g., MnO2 and σ phase) were formed at the defects. This increased the hardness of the alloys up to a certain level, although excessive amounts of in-situ second phases had the reverse effect.
Wydawca
Czasopismo
Rocznik
Tom
Strony
735--740
Opis fizyczny
Bibliogr. 23 poz., rys., wykr.
Twórcy
autor
- Kookmin University, School of Materials Science and Engineering, Seoul, Republic of Korea
autor
- Kookmin University, School of Materials Science and Engineering, Seoul, Republic of Korea
autor
- Kookmin University, School of Materials Science and Engineering, Seoul, Republic of Korea
autor
- Inha University, Department of Materials Science and Engineering, Incheon 22212, Republic of Korea
autor
- Kookmin University, School of Materials Science and Engineering, Seoul, Republic of Korea
Bibliografia
- [1] B. Cantor, I. T. H. Chang, P. Knight, A. J. B. Vincent, Mater. Sci. Eng. A. 375-377, 213-218 (2004).
- [2] F. Otto, A. Dlouhý, Ch. Somsen, H. Bei, G. Eggeler, E. P. George, Acta Mater. 61, 5743-5755 (2013).
- [3] G. T. Lee, J. W. Won, K. R. Lim, M. Kang, H. J. Kwon, Y. S. Na, Y. S. Choi, Met. Mater. Int. (2020), DOI: https://doi.org/10.1007/s12540-020-00786-7
- [4] J. H. Kim, Y. S. Na, Met. Mater. Int. 25, 296-303 (2019).
- [5] Y. Z. Tian, Y. Bai, M. C. Chen, A. Shibata, D. Terada, N. Tsuji, Metall. Mater. Trans. A, 45, 5300-5304 (2014).
- [6] R. Zheng, T. Bhattacharjee, A. Shibata, T. Sasaki, K. Hono, M. Joshi, N. Tsuji, Scr. Mater. 131, 1-5 (2017).
- [7] Y. Z. Tian, Y. Bai, L. J. Zhao, S. Gao, H. K. Yang, A. Shibata, Z. F. Zhang, N. Tsuji, Mater. Charact. 126, 74-80 (2017).
- [8] A. Siahsarani, F. Samadpour, M. H. Mortazavi, G. Faraji, Met. Mater. Int. (2020), DOI: https://doi.org/10.1007/s12540-020-00828-0
- [9] B. Schuh, F. Mendez-Martin, B. Völker, E. P. George, H. Clemens, R. Pippan, A. Hohenwarter, Acta Mater. 96, 258-268 (2015).
- [10] H. Shahmir, J. He, Z. Lu, M. Kawasaki, T. G. Langdon, Mater. Sci. Eng. A. 676, 294-303 (2016).
- [11] C. L. Chen, C. L. Huang, Met. Mater. Int. 19, 1047-1051 (2013).
- [12] B. Gwalani, R. M. Pohan, O. A. Waseem, T. Alam, S. H. Hong, H. J. Ryu, R. Banerjee, Scr. Mater. 162, 477-481 (2019).
- [13] L. Moravcik, L. Gouvea, V. Hornik, Z. Kovacova, M. Kitzmantel, E. Neubauer, I. Dlouhy, Scr. Mater. 157, 24-29 (2018).
- [14] P. He, J. Hoffmann, A. Möslang, J. Nucl. Mater. 501, 381-387 (2018).
- [15] J. M. Byun, S. W. Park, Y. D. Kim, Met. Mater. Int. 24, 1309-1314 (2018).
- [16] A. Patra, S. K. Karak, S. Pal, IOP Cof. Ser. Mater. Sci. Eng. 75 (012032), 1-6 (2015).
- [17] S. Nam, S. E. Shin, J. H. Kim, H. Choi, Met. Mater. Int. 26, 1385-1393 (2020).
- [18] N. Salah, S. S. Habib, Z. H. Khan, A. Memic, A. Azam, E. Alarfaj, N. Zahed, S. Al-Hamedi, Int. J. Nanomed. 6, 863-869 (2011).
- [19] H. Shahmir, J. He, Z. Lu, M. Kawasaki, T. G. Langdon, Mater. Sci. Eng. A. 676, 294-303 (2016).
- [20] N. Park, B.-J. Lee, N. Tsuji, J. Alloys Compd. 719, 189-193 (2017).
- [21] Q. Wang, Z. Li, S. Pang, X. Li, C. Dong, P. Liaw, Entropy 20, 878 (2018).
- [22] V. Rajkovic, D. Božić, A. Devečerski, J. Serb. Che. Soc. 72, 45-53 (2007).
- [23] S. K. Vajpai, R. K. Dube, P. Chatterjee, S. Sangal, Metall. Mater. Trans. A. 43, 2484-2499 (2012).
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ffe0f93e-3e38-41b6-9538-cb62b1dd942d