Cu-TiB2 복합재료의 마모거동에 따른 미세조직 관찰

이태우; 강계명; Tae-Woo Lee; Kae-Myung Kang

Korean Journal of Materials Research, Vol.16, No.8, 511-515, August, 2006

DOI10.3740/MRSK.2006.16.8.511 Export Citation

Cu-TiB2 복합재료의 마모거동에 따른 미세조직 관찰

Observation on the Microstructures of Cu-TiB2 Composites with Wear Behavior

이태우, 강계명 ^†

서울산업대학교 신소재공학과

Tae-Woo Lee, and Kae-Myung Kang^†

Department of Materials Science and Engineering, Seoul National University of Technology, Seoul, 139-743, Korea

E-mail:

The dispersion hardened composites are a promising candidate for applications as electrical contact materials. The composites for electrical contact materials can reduce material cost and resource consumption caused by wear, due to their good mechanical and electrical properties. In this study, we investigated the wear phenomenon for composites fabricated with hot extrusion, by varying particle sizes and volume fractions of . The wear tests were performed under the dry sliding condition with a fixed total sliding distance of 40 m. The contact loads at a constant speed of 3.5 Hz were 20, 40, 60, and 80 N. The friction coefficients and wear losses were measured during wear tests. Worn surfaces and wear debris after wear tests were investigated using the scanning electron microscope and the optical microscope. The microstructures of interface between Cu matrix and particle before and after wear tests were studied by the transmission electron microscope.

Keywords:Wear;Cu-TiB2 composites;wear debris;microstructure

[References]

Tjong SC, Lau KC, Materials Science and Engineering, A282, 183 (2000)
Hiraoka Y, Hanado H, Inoue T, Refractory Metals & Hard Materials, 22, 87 (2004)
Lu L, Wang LB, Ding BA, Lu K, Materials Science and Engineering, A286, 125 (2000)
Johnson KL, Wear, 190, 162 (1995)
Kong XL, Liu YB, Qiao LJ, Wear, 256, 747 (2004)
Straffelini G, Maines L, Pellizzari M, Scardi P, Wear, 259, 506 (2005)
XU Q, Zhang X, Han J, He X, Kvanin VL, Materials Letters, 57, 4439 (2003)
Kim JN, Choi JU, Kang KM, Korea Journal of Materials Research, 15(1), 61 (2005)
Lee TW, Kang KM, Choi JU, Korean J. of Materials research, 15(12), 824 (2005)
Tjong SC, Lau KC, Materials Letters, 41, 153 (1999)
Alpas AT, Metall. Trans., 25A, 969 (1994)
Zhang ZF, Zhang LC, Mai YW, J. Mater. Sci., 30(8), 1967 (1995)
Kang KM, Song JT, Wear, 140, 119 (1990)
Han K, Zhang KY, Scripta Materialia, 50, 781 (2004)
Wang W, Fu Z, Wang H, Yuan R, Journal of the European Ceramic Society, 22, 1045 (2002)
Liu JL, Wang ED, Liu ZY, Hu LX, Fang WB, Mater. Sci. Eng. A, 382, 301 (2004)

[Related Articles]

[1] Tjong SC, Lau KC, Materials Science and Engineering, A282, 183 (2000)

[2] Hiraoka Y, Hanado H, Inoue T, Refractory Metals & Hard Materials, 22, 87 (2004)

[3] Lu L, Wang LB, Ding BA, Lu K, Materials Science and Engineering, A286, 125 (2000)

[4] Johnson KL, Wear, 190, 162 (1995)

[5] Kong XL, Liu YB, Qiao LJ, Wear, 256, 747 (2004)

[6] Straffelini G, Maines L, Pellizzari M, Scardi P, Wear, 259, 506 (2005)

[7] XU Q, Zhang X, Han J, He X, Kvanin VL, Materials Letters, 57, 4439 (2003)

[8] Kim JN, Choi JU, Kang KM, Korea Journal of Materials Research, 15(1), 61 (2005)

[9] Lee TW, Kang KM, Choi JU, Korean J. of Materials research, 15(12), 824 (2005)

[10] Tjong SC, Lau KC, Materials Letters, 41, 153 (1999)

[11] Alpas AT, Metall. Trans., 25A, 969 (1994)

[12] Zhang ZF, Zhang LC, Mai YW, J. Mater. Sci., 30(8), 1967 (1995)

[13] Kang KM, Song JT, Wear, 140, 119 (1990)

[14] Han K, Zhang KY, Scripta Materialia, 50, 781 (2004)

[15] Wang W, Fu Z, Wang H, Yuan R, Journal of the European Ceramic Society, 22, 1045 (2002)

[16] Liu JL, Wang ED, Liu ZY, Hu LX, Fang WB, Mater. Sci. Eng. A, 382, 301 (2004)