Browse > Article
http://dx.doi.org/10.3740/MRSK.2005.15.2.115

Formation of Retainted Austenite and Mechanical Properties of 4~8%Mn Hot Rolled TRIP Steels  

Kim D. E. (School of Advanced Materials Eng. & RCAMD, Chonbuk Nat. Univ.)
Park Y. K. (School of Advanced Materials Eng. & RCAMD, Chonbuk Nat. Univ.)
Lee O. Y. (School of Advanced Materials Eng. & RCAMD, Chonbuk Nat. Univ.)
Jin K. G. (Automotive Steels Research Center, POSCO Technical Research Lab.)
Kim S. J. (Automotive Steels Research Center, POSCO Technical Research Lab.)
Publication Information
Korean Journal of Materials Research / v.15, no.2, 2005 , pp. 115-120 More about this Journal
Abstract
The aim of this research is to develop the TRIP aided high strength low carbon steels using reverse transformation process. The $4\~8\%$ Mn steel sheets were reversely transformed by slow heating to intercritical temperature region and furnace cooling to room temperature. The stability of retained austenite depends on the enrichment of carbon and manganese by diffusion during the reverse transformation. The amount of retained austenite formed after reversely transformed at $625^{\circ}C$ for 6 hrs was about $50\;vol.\%$ in the $8\%Mn$ steel. The change in volume fraction of retained austenite with a holding temperature was consistent with the changes in elongation and the strength-ductility combination. The maximum strength-ductility combination of 40,000 $MPa{\cdot}\%$ was obtained when the $8\%Mn$ steel reversely transformed at $625^{\circ}C$ for 12 hrs. However, it's property was significantly decreased at higher holding temperature of $675^{\circ}C$ resulting from the decrease of ductility.
Keywords
TRIP steel; retained austenite; reverse transformation; mechanical property;
Citations & Related Records
연도 인용수 순위
  • Reference
1 V. F. Zackay, E. R. Parker, D. Fahr, and R. Bush, Trans., ASM, 60, 252 (1967)
2 I. Tamura, T. Maki, and H. Hato, Trans. Iron and Steel Inst. Japan, 10, 163 (1970)
3 S. Hayami and T. Frukawa, Microalloying, 75, 87 (1975)
4 O. Matsumura, Y. Sakuma, and H. Takechi, Trans., ISIJ, 27, 571 (1987)
5 H. C. Chen, H. Era and M. Shimizu, Metall. Trans., 20A, 437 (1989)
6 Y. Sakuma, O. Matsumura and H. Takechi, Metall. Trans., 22A, 489 (1991)
7 K. Sugimoto, M. Kobayashi and S. I. Hashimoto, Metall. Trans., 24A, 3085 (1993)
8 T. Furukawa, Mater. Sci. Tech., 5, 465 (1989)   DOI   ScienceOn
9 T. Furukawa, H. Hwang and O. Matsumura, Mater. Sci. Tech., 10, 964 (1994)   DOI   ScienceOn
10 R. L. Miller, Trans. ASM, 57, 892 (1964)
11 R. L. Miller, Trans. ASM, 61, 592 (1968)
12 R. C. Ruhl and M. Cohen, Trans. AIME, 245, 241 (1969)
13 H. Huang, O. Matsumura and T. Furukawa, Mater. Sci. and Tech., 10,621 (1994)   DOI
14 J. H. Chung, Ph. D. Thesis, POSTECH, 70 (1993)
15 G. M. Haidernenopoulos, Steel Research, 67, 93 (1996)   DOI