304 스테인레스강에서 첨가원소에 따른 미세조직 및 절삭성 연구

강석순; 김현철; 이재현; 조종래; 정윤교; 장철호; 황호순; S.S. Kang; H.C. Kim; J.H. Lee; J.R. Cho; Y.G. Jung; C.H. Jang; H.S. Hwang

Korean Journal of Materials Research, Vol.16, No.9, 584-591, September, 2006

DOI10.3740/MRSK.2006.16.9.584 Export Citation

304 스테인레스강에서 첨가원소에 따른 미세조직 및 절삭성 연구

Microstructure and Machinability with Alloying Elements in the 304 Stainless Steel

강석순, 김현철, 이재현 ^†, 조종래¹, 정윤교¹, 장철호², 황호순²

창원대학교 재료공학과
¹창원대학교 기계공학과
²창원특수강(주) 기술연구소

S.S. Kang, H.C. Kim, J.H. Lee^†, J.R. Cho¹, Y.G. Jung¹, C.H. Jang², and H.S. Hwang²

Department of Materials Science and Engineering, Changwon National University, Korea
¹Department of Mechnical Engineering, Changwon National University, Changwon, Korea
²R&D Center, Changwon Specialty Steel Co., Changwon, Korea

E-mail:

To enhance the machinability of the austenite stainless alloys, Mn and S were added to form MnS in the austenite matrix. Recently, Ca is also added to increase machinability. The alloying elements, such as C, Mn, S, Ca, and Al, are known to affect machinability, but those roles are not well understood. In this study, the ingots, controlled of alloying elements, C, Mn, S, Ca, Al, were prepared in the 304 stainless steel. The relationship between microstructure and machinability was compared to understand the role of alloying elements. It was proved that Mn and S enhanced machinability but C reduced it by analyzing cutting force on machining in the lathe. The alloying elements, Ca and Al, made a complex oxide compound of Mn-S-Ca-Al-Si-O, which results in increasing tool life. The ferrite volume fraction was changed with alloying elements and the effect of the ferrite fraction on machining was also discussed.

Keywords:Machinability;Austenite;Ferrite;MnS;Inclusion

[References]

Kim TK, Park ST, Kim SS, J. Korean Inst. of Met. & Mater., 35(6), 697 (1997)
Kovach CW, Pro. International Symposium on Sulfide Inclusions in steel, 459 (1974)
Tipnis VA, Bloom FK, The Iron Age, Jun., 20, 285 (1969)
Waudby PE, International Metals Review, 2, 74 (1978)
Pickering FB, Mechanical Working and Steel Processing, 381 (1989)
Paul SK, Chakrabarty AK, Basu S, Metall. Trans., 13B, 185 (1982)
Kano K, Hanyuda T, Denkiseikou, 75(1), 27 (2004)
Kim JS, Wang SD, Jo YS, J. Korean Inst. of Met. & Mater., 33(2), 267 (1995)
Stainless Steels Handbook, Ed, Hasegawa Showgi, Translated by Sewha Publishing Co, 815 (1992) (1992)
Koseki T, Flemings MC, Metall. Trans., 26A, 2991 (1995)

[Related Articles]

[1] Kim TK, Park ST, Kim SS, J. Korean Inst. of Met. & Mater., 35(6), 697 (1997)

[2] Kovach CW, Pro. International Symposium on Sulfide Inclusions in steel, 459 (1974)

[3] Tipnis VA, Bloom FK, The Iron Age, Jun., 20, 285 (1969)

[4] Waudby PE, International Metals Review, 2, 74 (1978)

[5] Pickering FB, Mechanical Working and Steel Processing, 381 (1989)

[6] Paul SK, Chakrabarty AK, Basu S, Metall. Trans., 13B, 185 (1982)

[7] Kano K, Hanyuda T, Denkiseikou, 75(1), 27 (2004)

[8] Kim JS, Wang SD, Jo YS, J. Korean Inst. of Met. & Mater., 33(2), 267 (1995)

[9] Stainless Steels Handbook, Ed, Hasegawa Showgi, Translated by Sewha Publishing Co, 815 (1992) (1992)

[10] Koseki T, Flemings MC, Metall. Trans., 26A, 2991 (1995)