Effect of Strain Rate on the Extremely Low-Cycle Fatigue of Fe-15Mn-10Cr-8Ni-4Si Bidirectional-TRIP Steel
Author:
Affiliation:
1. National Institute for Materials Science
Publisher
Japan Institute of Metals
Link
https://www.jstage.jst.go.jp/article/matertrans/65/7/65_MT-Z2024002/_pdf
Reference24 articles.
1. 1) K. Hatanaka: Cyclic stress-strain response and low-cycle fatigue life in metallic materials, JSME Int. J. Ser. 1 33 (1990) 13–25. doi:10.1299/jsmea1988.33.1_13
2. 2) I. Nikulin, T. Sawaguchi, K. Ogawa and K. Tsuzaki: Effect of γ to ε martensitic transformation on low-cycle fatigue behaviour and fatigue microstructure of Fe–15Mn–10Cr–8Ni–xSi austenitic alloys, Acta Mater. 105 (2016) 207–218. doi:10.1016/j.actamat.2015.12.002
3. 3) F. Yoshinaka, T. Sawaguchi, I. Nikulin, S. Takamori and N. Nagashima: Improved fatigue life of the newly developed Fe-15Mn-10Cr-8Ni-4Si seismic damping alloy, Procedia Struct. Integr. 19 (2019) 214–223. doi:10.1016/j.prostr.2019.12.023
4. 4) F. Yoshinaka, T. Sawaguchi, I. Nikulin and S. Takamori: Fatigue properties and plastically deformed microstructure of Fe-15Mn-10Cr-8Ni-4Si alloy in high-cycle-fatigue regime, Int. J. Fatigue 129 (2019) 105224. doi:10.1016/j.ijfatigue.2019.105224
5. 5) F. Yoshinaka, T. Sawaguchi, S. Takamori and S. Emura: Transformation-induced plasticity via γ → ε → α′ and γ → ε → γ martensitic transformations in Fe–15Mn–10Cr–8Ni–4Si alloy, Mater. Sci. Eng. A 833 (2022) 142583. doi:10.1016/j.msea.2021.142583
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