Direct observation of dislocation plasticity in high-Mn lightweight steel by in-situ TEM

To gain the fundamental understanding of deformation mechanisms in an aluminum-containing austenitic high-Mn steel (Fe-32Mn-8.9Al-0.78 C (wt.%)), in-situ straining transmission electron microscopy (TEM) analysis is conducted. The in-situ observation during the deformation demonstrates that the plast...

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Veröffentlicht in:Scientific reports 2019-10, Vol.9 (1), p.15171-13, Article 15171
Hauptverfasser: Kim, Sung-Dae, Park, Jun Young, Park, Seong-Jun, Jang, Jae hoon, Moon, Joonoh, Ha, Heon-Young, Lee, Chang-Hoon, Kang, Jun-Yun, Shin, Jong-Ho, Lee, Tae-Ho
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Sprache:eng
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Zusammenfassung:To gain the fundamental understanding of deformation mechanisms in an aluminum-containing austenitic high-Mn steel (Fe-32Mn-8.9Al-0.78 C (wt.%)), in-situ straining transmission electron microscopy (TEM) analysis is conducted. The in-situ observation during the deformation demonstrates that the plastic deformation is accommodated by the pronounced planar dislocation gliding followed by the formation of slip bands (SBs) and highly dense dislocation walls (HDDWs). Experimental evidences of the glide plane softening can be obtained from the interaction between the gliding perfect dislocations and the L’1 2 ordered precipitates in the austenite matrix. Furthermore, the observation of the localized cross-slip of dislocations at the slip band intersections enables to understand why slip bands are extensively developed without mutual obstructions between the slip bands. The enhanced strain hardening rate of the aluminum-containing austenitic high-Mn steels can be attributed to the pronounced planar dislocation glides followed by formation of extensive slip band which prevent premature failure by suppressing strain localization.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-51586-y