Thermomechanical Treatment for Enhancing Deep Drawability of Copper-Bearing Bake Hardening Steel

Yang Mo Koo; Kyu Hwan Oh; Dong Nyung Lee

doi:10.4028/www.scientific.net/MSF.706-709.2634

Paper Titles

Orientation Gradients in α-Fibre Grains of Cold Rolled IF Steels
p.2611

Effect of Electric Field Strength on Texture Evolution of IF Steel Sheet during Annealing
p.2617

Influence of Heating Rate and Decarburization Temperature on the Microstructure and Magnetic Properties of Grain Oriented Electrical Steel
p.2622

Microstructure and Texture Evolution of Fe-Si Steels after Hot Dipping and Diffusion Annealing
p.2628

Thermomechanical Treatment for Enhancing Deep Drawability of Copper-Bearing Bake Hardening Steel
p.2634

Numerical Model of Microstructure and Fracture of Coated Aluminum Alloys: A Novel Design Approach
p.2640

Influence of Surface Micro Texture on Photocatalitic Function of Titanium Dioxide Film
p.2646

Microstructure and Texture Development in Pure Ta Sheets Processed by Conventional Rolling and Cross Roll Rolling
p.2652

Evolution of Crystallographic Texture in Pure Iron and Commercial Steels by γ to α Transformation
p.2657

HomeMaterials Science ForumMaterials Science Forum Vols. 706-709Thermomechanical Treatment for Enhancing Deep...

Thermomechanical Treatment for Enhancing Deep Drawability of Copper-Bearing Bake Hardening Steel

Abstract:

A two-step rolling-annealing process has been developed to increase the <111>//ND (γ fiber) component in the recrystallization texture of a copper-bearing bake hardening steel. The two step process comprises the first rolling by a low reduction in thickness and subsequent annealing at 780°C, followed by the second rolling by a high reduction and subsequent annealing at 780°C. The first rolling process aims at seeding the γ fiber oriented grains, so that they can grow at the expense of differently oriented grains developed in the second rolling process. In this way the density of γ fiber component in the recrystallization texture of the bake hardening steel much increases compared with that in the conventional one-step rolling-annealing process.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Materials Science Forum (Volumes 706-709)

Pages:

2634-2639

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.706-709.2634

Citation:

Cite this paper

Online since:

January 2012

Authors:

Yang Mo Koo, Kyu Hwan Oh, Dong Nyung Lee

Keywords:

Copper-Bearing Bake Hardening Steel, Enhance-Ment of γ Fiber, Grain Growth, Recrystallization, Texture, Two-Step Rolling Annealing Process

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] D.N. Lee, J. Mater. Sci. Lett., 3 (1984) 677-180.

Google Scholar

[2] D.N. Lee, Strength of Metals and Alloys, Pergamon Press (Proc. of the 7th International Conference on Strength of Metals and Alloys, Montreal, Canada, (August 12-16, 1985) 1061-1066.

Google Scholar

[3] D.N. Lee, Nacro- to Nano-scale Inelastic Behavior of Materials: Plasticity, Fatigue, and Fracture, the NEAT PRESS, Maryland (Proc. of Plasticity'09: The 17th International Symposium on Plasticity and its Current Applications, St. Thomas, U.S. Virgin Islands, (January 3-8, 2009).

Google Scholar

[4] J. -B. Yoon, S. -i. Kim, I. -B. Kim, J. Kor. Inst. Met. & Mater. 46 (2008) 609-616.

Google Scholar

[5] H.J. Shin, J. -K. An, S. -H. Park, D.N. Lee, Acta mater. 51 (2003) 4693-4709.

Google Scholar

[6] S.H. Lee, D.N. Lee, Mater. Sci. Eng. A249 (1998) 84-90.

Google Scholar

[7] S.H. Lee, D.N. Lee, Int. J. Mech. Sci. 43 (2001) 1997-(2015).

Google Scholar

[8] C.R. Austin, L.A. Luini and R.W. Lindsay, Trans. ASM. 35 (1945) 446-479.

Google Scholar

[9] G. Kim, K. Kim, O. Kwon, in: International Symposium on Modern LC and ULC Sheet Steels for Cold Forming: Processing and Properties, edited by W. Bleck, RWTH Aachen, p.479 (1988).

Google Scholar

[10] S. -H. Hong, D.N. Lee, Mater. Sci. Eng. A357 (2003) 75-85.

Google Scholar

[11] H. Nakae, H. Yamamura, J. JIM, 32 (1968), 130.

Google Scholar

[12] S.H. Hong, D.N. Lee, ISIJ Int. 42 (2002) 1278-1287.

Google Scholar

[13] D. Raabe, K. Lücke, Mater. Sci. Forum, 157-162 (1994) 597-610.

Google Scholar

[14] D.N. Lee, Scripta Met. Mater. 32 (1995) 1689-1694.

Google Scholar

[15] D.N. Lee, Phil. Mag. 85 (2005) 297-322.

Google Scholar

[16] K. -K. Um, H. -T. Jeong, J. -K. An, D.N. Lee, G. Kim, O. Kwon, ISIJ Int., 40 (2000) 58-64.

Google Scholar