论文信息 - Effect of arc discharge on the wear rate and wear mode transition of a copper-impregnated metallized carbon contact strip sliding against a copper disk

Effect of arc discharge on the wear rate and wear mode transition of a copper-impregnated metallized carbon contact strip sliding against a copper disk

Wear of the contact strip on the pantograph of electric railway vehicles is governed mainly by arc discharge occurring simultaneously with break of contact between the strip and trolley wire. As a step to clarify the wear mechanism of metallized carbon contact strips under the occurrence of contact break arc discharge, a detailed sliding wear test of 30 min duration was carried out for the combination of a copper-impregnated carbon strip and a copper disk at a sliding speed of 100 km/h. The worn surfaces of the strip and disk were observed every 5 min. The voltage drop and electric current were measured throughout the test, and the occurrence and energy of the arc discharge were evaluated for each revolution of the disk. The wear process is considered in terms of the wear mode transition, and the effect of arc discharge on the mode transition and wear rate of the strip is discussed.

Shunichi Kubo | Koji Kato | S. Kubo | K. Katô

[1] Shunichi Kubo,et al. Effect of arc discharge on wear rate of Cu-impregnated carbon strip in unlubricated sliding against Cu trolley under electric current , 1998 .

[2] Jean Dafos. La Problèmematique du captage , 1991 .

[3] M C Graziano. PANTOGRAPHS FOR HIGH-SPEED RUNNING , 1971 .

[4] 克士真鍋. 架線・パンタグラフ系の高速性能 : 第2報, 速度縮尺模型実験による系のパラメータの影響 , 1989 .

[5] F. A. Benson,et al. Wear in simulated railway overhead current collection systems , 1988 .

[6] K Taylor. BRITISH RAILWAY'S EXPERIENCE WITH PANTOGRAPHS FOR HIGH-SPEED RUNNING , 1971 .

[7] M.J.B. Turner,et al. Sparking and arcing in electrical machines , 1966 .

[8] Djw Souch,et al. THE DEVELOPMENT OF THE PANTOGRAPH FOR HIGH-SPEED COLLECTION , 1971 .