Optimum Performance of High Tension Steel Sheets under Various Heat Treatment Process


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Key Engineering Materials (Volumes 340-341)

Edited by:

N. Ohno and T. Uehara




T. S. Salleh et al., "Optimum Performance of High Tension Steel Sheets under Various Heat Treatment Process", Key Engineering Materials, Vols. 340-341, pp. 495-500, 2007

Online since:

June 2007




[1] Information on http: /www. icar. com.

[2] Information on http: /www. gmthailand. com/site2005/htm/news_pressrelease2003-11opta. php.

[3] Nishida Masataka, Stress concentration, Morikita Press, Japan, (1967) pp.576-581. (in Japanese).

[4] Committee of JSM Strength, Strength and Fracture of Metals, Maruzen, (1972), pp.16-17. (in Japanese).

[5] The Society of Materials Science, Japan, Fatigue Design of Metalic Materials Handbook, Yokendo, Tokyo, (1972 ), pp.44-57, (in Japanese).

[6] Manabu T, Teruki H, Hirokazu T, Osamu K and Riki O, Nippon Steel Technical Report, No. 88, pp.8-12 (July 2003).

[7] S. Nishida, N. Hattori and S. Tuan Suhaimi: Effect of Alloy Elements on Fatigue Properties of Ultra-low Carbon Steels, FDAM2004, Hangzhou (2004), pp.284-294.

[8] T. S. Salleh, Nishida S. and Hattori N: Fatigue mechanism of elemental alloyed and nitrided ultra-low carbon steel sheets, ICEM2004, Singapore (2004), pp.494-500.

[9] T. S. Salleh, S. Nishida, and N. Hattori: International Journal of Strength, Fracture and Complexity 2, (2004), pp.69-80. 5µµµµm 10µµµµm 10µµµµm 25µµµµm.

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