Transmission Electron Microscopy Observation of Twin Variant Selection in Austenitic Twinning-Induced Plasticity Steel |
Han, Jung-Hoon
(Department of Materials Science and Engineering and Research Institute of Advanced Materials, Seoul National University)
Oh, Juhyun (Department of Materials Science and Engineering and Research Institute of Advanced Materials, Seoul National University) Yoon, Sangmoon (Department of Materials Science and Engineering and Research Institute of Advanced Materials, Seoul National University) Kim, Yanghoo (Department of Materials Science and Engineering and Research Institute of Advanced Materials, Seoul National University) Han, Heung Nam (Department of Materials Science and Engineering and Research Institute of Advanced Materials, Seoul National University) Kim, Miyoung (Department of Materials Science and Engineering and Research Institute of Advanced Materials, Seoul National University) |
1 |
Ahn T H, Lee S B, Park K T, Oh K H, and Han H N (2014) Strain-induced |
2 | Allain S, Chateau J P, and Bouaziz O (2004) A physical model of the twinning-induced plasticity effect in a high manganese austenitic steel. Mat. Sci. Eng. A 387, 143-147. |
3 | Barbier D, Gey N, Allain S, Bozzolo N, and Humbert M (2009) Analysis of the tensile behavior of a TWIP steel based on the texture and microstructure evolutions. Mat. Sci. Eng. A 500, 196-206. DOI |
4 | Frommeyer G, Brux U, and Neumann P (2003) Supra-ductile and highstrength Manganese-TRIP/TWIP steels for high energy absorption purposes. ISIJ Int. 43, 438-446. DOI |
5 | Godet S, Jiang L, Luo A A, and Jonas J J (2006) Use of Schmid factors to select extension twin variants in extruded magnesium alloy tubes. Scripta Mater. 55, 1055-1058. DOI |
6 | Han J H, Kim D I, Jee K K, and Oh K H (2004) Evolution of crystallographic orientations in an aluminum single crystal during tensile deformation. Mat. Sci. Eng. A 387, 60-63. |
7 | Hong C S, Tao N R, Lu K, and Huang X (2009) Grain orientation dependence of deformation twinning in pure Cu subjected to dynamic plastic deformation. Scripta Mater. 61, 289-292. DOI |
8 | Idrissi H, Ryelandt L, Veron M, Schryvers D, and Jacques P J (2009) Is there a relationship between the stacking fault character and the activated mode of plasticity of Fe-Mn-based austenitic steels? Scripta Mater. 60, 941-944. DOI |
9 | Hua D, Zheng-You T, Wei L I, Mei W, and Dan S (2006) Microstructures and mechanical properties of Fe-Mn-(Al, Si) TRIP/TWIP steels. J. Iron Steel Res. Int. 13, 66-70. DOI |
10 | Hull D and Bacon D J (2001) Introduction to Dislocation (Butterworth-Heinemann, London). |
11 | Karaman I, Sehitoglu H, Gall K, Chumlyakov Y I, and Maier H J (2000) Deformation of single crystal Hadfield steel by twinning and slip. Acta Mater. 48, 1345-1359. DOI |
12 | Lee S H, Kang J Y, Han H N, Oh K H, Lee H C, Suh D W, and Kim S J (2005) Variant selection in mechanically-induced martensitic transformation of metastable austenitic steel. ISIJ Int. 45, 1217-1219. DOI |
13 | Perez-Prado M T and Doncel G G (2006) Lattice rotation during severe local shear in a fully hardened Al-4% Cu-0.1% Fe single crystal alloy. Scripta Mater. 54, 915-919. DOI |
14 | Scheriau S and Pippan R (2008) Influence of grain size on orientation changes during plastic deformation. Mat. Sci. Eng. A 493, 48-52. DOI |
15 | Ueji R, Tsuchida N, Terada D, Tsuji N, Tanaka Y, Takemura A, and Kunishige K (2008) Tensile properties and twinning behavior of high manganese austenitic steel with fine-grained structure. Scripta Mater. 59, 963-966. DOI |
16 | Vercammen S, Blanpain B, De Cooman B C, and Wollants P (2004) Cold rolling behaviour of an austenitic Fe-30Mn-3Al-3Si TWIP-steel: the importance of deformation twinning. Acta Mater. 52, 2005-2012. DOI |
17 | Yang P, Xie Q, Meng L, Ding H, and Tang Z (2006) Dependence of deformation twinning on grain orientation in a high manganese steel. Scripta Mater. 55, 629-631. DOI |
![]() |