재생 WC 분산형 Fe계 하드페이싱 용접재료의 마모저항성에 미치는 Mn과 C 첨가의 영향

강남현; 채현병; 김준기; 최종하; 김정한; Nam-hyun Kang; Hyun-byung Chae; Jun-ki Kim; Jong-ha Choi; Jeong-han Kim

Korean Journal of Materials Research, Vol.13, No.12, 839-845, December, 2003

DOI10.3740/MRSK.2003.13.12.839 Export Citation

재생 WC 분산형 Fe계 하드페이싱 용접재료의 마모저항성에 미치는 Mn과 C 첨가의 영향

Effects of Mn and C Addition on the Wear Resistance for the Recycled WC Dispersed Fe-base Hardfacing Weld

강남현 , 채현병, 김준기^†, 최종하¹, 김정한

한국생산기술연구원 정밀접합·용접팀
¹세화엔지니어링(주)

Nam-hyun Kang , Hyun-byung Chae, Jun-ki Kim^†, Jong-ha Choi¹, and Jeong-han Kim

Advanced Welding & Joining, Korea Institute Of Industial Technology, Chonan 330-825, Korea
¹Saehwa Engineering Co. Ltd., Inchon 404-330, Korea

E-mail:

The abrasion and impact wear resistance were investigated on the hardfacing weld dispersed with the recycled hard metal(HM). The HM was composed of the tungsten carbide(WC) reinforced metal matrix composite. The cored wire filled with the 25-35wt.% HM and 2-8wt.% of the alloying element, Fe-75Mn- 7C(FeMnC), was used for the gas metal arc(GMA) welding. By using the cored wire of the 25wt.% HM and FeMnC addition, the weld showed mostly constant wear loss for the abrasion as a function of the FeMnC content. This was due to the insufficient amount of the tungsten carbide formed during the GMA welding. The FeMnC addition to the 35wt.% HM did not improve the abrasion wear property since the amount of the tungsten carbide formed was decreased with respect to the FeMnC amount. The 6wt.% FeMnC addition to the 35wt.% HM exhibited the better impact wear resistance than the hardfacing weld by 40wt.% HM.

Keywords:hardfacing;tungsten carbide;abrasion wear;impact wear;cored wire

[References]

Materials and Applications part 2, Welding Handbook-8th edition, vol. 4, AWS, 392-394 (1998) (1998)
Antony KC, Journal of Metal, 35(2), 52 (1983)
Ocken H, Nuclear Technology, 68, 18 (1985)
Kang N, Chae H, Kim J, Choi J, Kim J, Korean Journal of Meterials Research (submitted at Oct. 2003) (2003)
Kim J, Chae H, Kim J, Final Report of Korea Institute of Industrial Technology 'Development of hardfacing cored welding wire by using recycled hard metal' (2002) (2002)
Ohriner EK, Wada T, Whelan EP, Ocken H, Metallurgical Transactions A, 22A, 983 (1991)
Engel PA, Impact wear of materials (1978)
Rawers J, Govier D, Cook D, Scripta Metallurgica et Materialia, 32(9), 1319 (1995)
Kim J, Kim G, Kim S, J. Nucl. Mater., 289(3), 263 (2001)
Kotecki DJ, Ogborn JS, Welding Journal, 74(8), 269s (1995)

[Related Articles]

[1] Materials and Applications part 2, Welding Handbook-8th edition, vol. 4, AWS, 392-394 (1998) (1998)

[2] Antony KC, Journal of Metal, 35(2), 52 (1983)

[3] Ocken H, Nuclear Technology, 68, 18 (1985)

[4] Kang N, Chae H, Kim J, Choi J, Kim J, Korean Journal of Meterials Research (submitted at Oct. 2003) (2003)

[5] Kim J, Chae H, Kim J, Final Report of Korea Institute of Industrial Technology 'Development of hardfacing cored welding wire by using recycled hard metal' (2002) (2002)

[6] Ohriner EK, Wada T, Whelan EP, Ocken H, Metallurgical Transactions A, 22A, 983 (1991)

[7] Engel PA, Impact wear of materials (1978)

[8] Rawers J, Govier D, Cook D, Scripta Metallurgica et Materialia, 32(9), 1319 (1995)

[9] Kim J, Kim G, Kim S, J. Nucl. Mater., 289(3), 263 (2001)

[10] Kotecki DJ, Ogborn JS, Welding Journal, 74(8), 269s (1995)