Friction and Wear Properties of Copper/Carbon/RB Ceramics Composite Materials under Dry Condition
In order to realize reducing wear of both overhead wires and pantograph sliders, the authors have developed new composite materials for pantograph sliders by using hard porous carbon materials “RB ceramics”. The new composite materials were developed by sintering compounds of copper, carbon and the...
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| Published in | Tribology Online Vol. 3; no. 4; pp. 222 - 227 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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Japanese Society of Tribologists
2008
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| Abstract | In order to realize reducing wear of both overhead wires and pantograph sliders, the authors have developed new composite materials for pantograph sliders by using hard porous carbon materials “RB ceramics”. The new composite materials were developed by sintering compounds of copper, carbon and the RB ceramics particles. Friction and wear properties of these copper/carbon/RB ceramics composite materials (Cu/C/RBC composites) sliding against a copper alloy pin under dry condition were investigated. The friction coefficient for the Cu/C/RBC composites was lower and more stable than that for the conventional pantograph slider material, Cu/C composite. The friction coefficient for the Cu/C/RBC composites was about 1/2 ∼ 3/5 of that for the Cu/C composite. The specific wear rate of the Cu/C/RBC composites was extremely lower than that of the Cu/C composite. The specific wear rate of the Cu/C/RBC composites was decreased with a decrease of the weight fraction and the mean particle size of the RB ceramics particles. The specific wear rate of the Cu/C/RBC composites was about 1/220 ∼ 1/70 of that of the conventional Cu/C composite. Furthermore, the specific wear rate of a copper alloy pin sliding against the Cu/C/RBC composites is about 1/1700 ∼ 1/150 of that sliding against the conventional Cu/C composite. |
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| AbstractList | In order to realize reducing wear of both overhead wires and pantograph sliders, the authors have developed new composite materials for pantograph sliders by using hard porous carbon materials “RB ceramics”. The new composite materials were developed by sintering compounds of copper, carbon and the RB ceramics particles. Friction and wear properties of these copper/carbon/RB ceramics composite materials (Cu/C/RBC composites) sliding against a copper alloy pin under dry condition were investigated. The friction coefficient for the Cu/C/RBC composites was lower and more stable than that for the conventional pantograph slider material, Cu/C composite. The friction coefficient for the Cu/C/RBC composites was about 1/2 ∼ 3/5 of that for the Cu/C composite. The specific wear rate of the Cu/C/RBC composites was extremely lower than that of the Cu/C composite. The specific wear rate of the Cu/C/RBC composites was decreased with a decrease of the weight fraction and the mean particle size of the RB ceramics particles. The specific wear rate of the Cu/C/RBC composites was about 1/220 ∼ 1/70 of that of the conventional Cu/C composite. Furthermore, the specific wear rate of a copper alloy pin sliding against the Cu/C/RBC composites is about 1/1700 ∼ 1/150 of that sliding against the conventional Cu/C composite. |
| Author | Shibata, Kei Hokkirigawa, Kazuo Yamaguchi, Takeshi Mishima, Junichiro |
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| CitedBy_id | crossref_primary_10_1016_j_wear_2012_07_004 crossref_primary_10_1021_ie301922d crossref_primary_10_1016_j_apsusc_2018_08_165 crossref_primary_10_1541_ieejias_135_426 crossref_primary_10_2474_trol_11_653 crossref_primary_10_1016_j_jeurceramsoc_2012_11_027 crossref_primary_10_1080_09276440_2018_1380472 crossref_primary_10_1177_1350650116679048 crossref_primary_10_4325_seikeikakou_32_408 crossref_primary_10_1007_s11465_018_0494_x crossref_primary_10_2474_trol_6_180 crossref_primary_10_1088_1402_4896_ad4792 crossref_primary_10_1007_s40534_022_00281_2 crossref_primary_10_1520_MPC20200177 crossref_primary_10_2474_trol_4_131 |
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| References | [1]Kubo, S., “Latest Trend in Material for Pantograph's Contact Strip,” Journal of Japanese Society of Tribologists, 50, 3, 2005, 202-207. [3]Hokkirigawa, K., “Development and Application of Rice Bran Ceramics as a New Tribo-Material,” Proc. Int. Conf. Nagasaki, 2000, 31-38. [7]Akiyama, M., Matsumoto, K., Yamaguchi, T. and Hokkirigawa, K., “Tribological Properties of PA66/RB Ceramics Composites under Dry and Oil Lubricated Conditions,” Proc. Third Asia Int. Conf. Tribol., 2006, 383-384. [6]Akiyama, M., Matsumoto, K., Yamaguchi, T. and Hokkirigawa, K., “Development of Thermoplastic Resin/RB Ceramics Composites and Their Friction and Wear Properties under Dry and Oil Lubricated Conditions,” Book of Synopses of Int. Tribol. Conf. Kobe 2005, 2005, 381. [8]Yamaguchi, T., Zhou, Y., Hirao, K., Kino, K., Matsuura, H. and Hokkirigawa, K., “Friction and Wear Properties of SiC/RB Ceramics Composites,” Proc. Third Asia Int. Conf. Tribol., 2006, 377-378. [9]Zhou, Y., Hirao, Yamaguchi, T. and Hokkirigawa, K., “Preparation and Tribological Properties SiC/RBC Composite Ceramics,” Journal of Material Research, 20, 12, 2005, 3439-3448. [4]Yamaguchi, T. and Hokkirigawa, K., “Development of Hard Porous Carbon Materials RB Ceramics and Their Tribological Application,” Proc. 3rd Asia Int. Conf. Tribol., 2006, 387-388. [5]Yamaguchi, T. and Hokkirigawa, K., “Tribological Properties and Applications of Hard Porous Carbon Materials “RB Ceramics”,” Journal of Japanese Society of Tribologists, 52, 2, 2007, 114-119 [2]Hokkirigawa, K., Shikano, S. and Takahashi, T., “Development of Hard Porous Materials “RB Ceramics” Made of Rice Bran,” Proc. 3rd Int. Conf. on Ecomaterials, 1997, 132-135. BESIKCI C (3) 2000; 3948 KUBO SHUN'ICHI (1) 2005; 50 2 4 5 6 7 8 9 |
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| Title | Friction and Wear Properties of Copper/Carbon/RB Ceramics Composite Materials under Dry Condition |
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