금형재료용 주철강의 복합열처리 특성

황현태; 소상우; 김종도; Hyun-Tae Hwang; Sang-Woo So; Jong-Do Kim

Korean Journal of Materials Research, Vol.21, No.7, 364-370, July, 2011

DOI10.3740/MRSK.2011.21.7.364 Export Citation

금형재료용 주철강의 복합열처리 특성

Combined Heat Treatment Characteristics of Cast Iron for Mold Materials

황현태, 소상우, 김종도^{1, †}

(재)울산테크노파크
¹한국해양대학교

Hyun-Tae Hwang, Sang-Woo So, and Jong-Do Kim^{1, †}

Ulsan Technopark, 342-1 Maegok-dong, Buk-gu, Ulsan 683-420, Korea
¹Division of Marine Engineering, Korea Maritime University, Busan 606-791, Korea

E-mail:

Currently, there are two main issues regarding the development of core technologies in the automotive industry: the development of environmentally friendly vehicles and securing a high level of safety in the event of an accident. As part of the efforts to address these issues, research into alternative materials and new car body manufacturing and assembly technologies is necessary, and this has been carried out mainly by the automotive industries. Large press molds for producing car body parts are made of cast iron. With the increase of automobile production and various changes of design, the press forming process of car body parts has become more difficult. In the case of large press molds, high hardness and abrasive resistance are needed. To overcome these problems, we attempted to develop a combined heat treatment process consisting of local laser heat treatment followed by plasma nitriding, and evaluated the characteristics of the proposed heat treatment method. From the results of the experiments, it has been shown that the maximum surface hardness is 864 Hv by the laser heat treatment, 953 Hv by the plasma nitriding, and 1,094 Hv by the combined heat treatment. It is anticipated that the suggested combined heat treatment can be used to evaluate the durability of press mold.

Keywords:HPDL (high power diode laser);laser surface treatment;cast iron;combined heat treatment;nitriding treatment

[References]

Hwang HT, Song HS, Kim JD, Song MK, Kim YK, Korean J. Mater. Res., 19(9), 457 (2009)
Kim JD, Hwang HT, So SW, Kim YK, Kim BH, J. Kor. Soc. Heat Treatment, 22(6), 339 (2009)
Pantsar H, Kujanpaa V, Surf. Coating. Tech., 200, 2627 (2006)
Pashby IR, Barnes S, Bryden BG, J. Mater. Process. Tech., 139, 585 (2003)
Dumitrescu P, Koshy P, Stenekes J, Elbestawi MA, Int. J. Mach. Tool. Manufact., 46, 2009 (2006)
Kim SC, Woo SG, Kan DM, J. Soc. Naval Architects of Korea, 27(2), 47 (1990)
Cho KS, Lee CO, Wear, 64, 303 (1980)
Lee BO. Master Thesis, p. 11-19, Korea Advanced Institute of Science and Technology, Daejeon, Korea (1983)

[1] Hwang HT, Song HS, Kim JD, Song MK, Kim YK, Korean J. Mater. Res., 19(9), 457 (2009)

[2] Kim JD, Hwang HT, So SW, Kim YK, Kim BH, J. Kor. Soc. Heat Treatment, 22(6), 339 (2009)

[3] Pantsar H, Kujanpaa V, Surf. Coating. Tech., 200, 2627 (2006)

[4] Pashby IR, Barnes S, Bryden BG, J. Mater. Process. Tech., 139, 585 (2003)

[5] Dumitrescu P, Koshy P, Stenekes J, Elbestawi MA, Int. J. Mach. Tool. Manufact., 46, 2009 (2006)

[6] Kim SC, Woo SG, Kan DM, J. Soc. Naval Architects of Korea, 27(2), 47 (1990)

[7] Cho KS, Lee CO, Wear, 64, 303 (1980)

[8] Lee BO. Master Thesis, p. 11-19, Korea Advanced Institute of Science and Technology, Daejeon, Korea (1983)