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Tensile deformation behavior of Fe–Mn–C TWIP steel with ultrafine elongated grain structure SCIE SCOPUS
- Title
- Tensile deformation behavior of Fe–Mn–C TWIP steel with ultrafine elongated grain structure
- Authors
- Lee, T; Koyama, M; Tsuzaki, K; Lee, YH; Lee, CS
- Date Issued
- 2012-05-15
- Publisher
- ELSEVIER
- Abstract
- An Fe-17Mn-0.6C steel with ultrafine elongated grain structure was successfully produced utilizing a multipass caliber-rolling process at 773 K. The uniform elongation of the developed steel was not severely degraded although its strength was greatly enhanced, leading to superior tensile properties. The result contrasted with most ultrafine-grained metals, including C-free TWIP steels, reporting the critical loss of uniform elongation. The peculiar phenomenon in the present work was attributed to the high work hardening capacity of C-added TWIP steels with the submicrocrystalline structure caused by dynamic strain aging, deformation twinning, and formation of stacking faults even after strong grain refinement. (C) 2012 Elsevier B.V. All rights reserved.
- Keywords
- TWIP steel; Grain refinement; Tensile properties; Deformation twinning; Dynamic strain aging; MANGANESE AUSTENITIC STEEL; INDUCED PLASTICITY STEELS; ALLOY; SIZE; TEMPERATURE; STRENGTH; ALUMINUM; ROOM
- ISSN
- 0167-577X
- Article Type
- Article
- Citation
- Materials Letters, vol. 75, no. 15, page. 169 - 171, 2012-05-15
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