|
|
BEHAVIOR OF MARTENSITE REVERSE TRANSFORMATION IN A HIGH MANGANESE TRIP STEEL DURING WARM DEFORMATION |
LU Fayun, YANG Ping, MENG Li, MAO Weimin |
School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083 |
|
Cite this article:
LU Fayun YANG Ping MENG Li MAO Weimin. BEHAVIOR OF MARTENSITE REVERSE TRANSFORMATION IN A HIGH MANGANESE TRIP STEEL DURING WARM DEFORMATION. Acta Metall Sin, 2010, 46(10): 1153-1160.
|
Abstract High manganese steels show significant potential for industrial application due to their remarkable TRIP/TWIP effects at room temperature. The study on the TRIP behavior during warm deformation is important in controlling microstructures and properties of high manganese steels. In this paper, the microstructures, phase structures and reverse transformation of martensites to austenite in a high manganese steel which is composed of two types of martensites and austenite were investigated under warm deformation (100—500℃) by means of the determination of transformation temperature, calculation of phase diagram, microstructure observation, XRD analysis and EBSD orientation imaging technique. Results show that during compression above 300 ℃, TRIP effect disappeared and reverse transformation from martensite to austenite was enhanced. The transformation from bcc martensite to austenite was determined to be diffusive and no nucleation of austenite was needed. The warm deformation of austenite leads to the formation of coarse deormation twins and the mechanical stabilization of austenite, which suppressed the subsequent martensitic transformation during quenching. The austeniic grains in which reverse martensitic transformation completed at the latest, show mainly {110} and {100} orientations. In addition, hcp martensite could hardly edetected around bcc martensite, and the transformation of hcp martensite into austenite is regarded to be reversible and diffusionless.
|
Received: 13 June 2010
|
|
Fund: Supported by National Natural Science Foundation of China (No.50771019) and Specialized Research Fund for the Doctoral Program of Higher Education (No.20090006110013) |
[1] Zhang F C, Lei T Q. Wear, 1997;212: 195
[2] Gr?ssel O, Krüger L, Frommeyer G, Meyer L W. Int J Plast, 2000; 16: 1391
[3] Frommeryer G, Brüx U, Neumann P. ISIJ Int, 2003; 43: 438
[4] Curtze S, Kuokkala V-T, Hokka M, Peura P. Mater Sci Eng, 2009; A507: 124
[5] Byun T S, Hashimoto N, Farrell K. Acta Mater, 2004; 52: 3889
[6] Sawaguchi T, Bujoreanu L-G, Kikuchi T, Ogawa K, Koyamaa M, Murakamic M. Scr Mater, 2008; 59: 826
[7] Bergeon N, Guenin G, Esnouf C. Mater Sci Eng, 1998; A242: 87
[8] Stalder M, Vogel S, Bourke M A M, Maldonado J G, Thoma D J, Yuan V W. Mater Sci Eng, 2000; A280: 270
[9]Gauzzi F, Montanari R, Principi G, Tata M E. Mater Sci Eng, 2006; A438-440: 202
[10] Tavares S S M, Fruchart D, Miraglia S. J Alloys Compd, 2000; 307: 311
[11] Kundu S, Bhadeshia H K D H. Scr Mater, 2007; 57: 869
[12] Kitahara H, Ueji R, Tsuji N, Minamino Y. Acta Mater, 2006; 54: 1279
[13] Zhang M-X, Kelly P M, Gates J D. Mater Sci Eng,1999; A273-275: 251
[14] Gauzzi F, Montanari R. Mater Sci Eng, 1999; A273-275: 524
[15] Lee Se-J, Park Y-M, Lee Y-K. Mater Sci Eng, 2009; A515: 32
[16] Leem D-S, Lee Y-D, Jun J-H, Choi C-S. Scr Mater, 2001; 45: 767
[17] Gey N, Petit B, Humbert M. Metall Mater Trans, 2005; A36: 3291
|
No Suggested Reading articles found! |
|
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
|
Shared |
|
|
|
|
|
Discussed |
|
|
|
|