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Study on the wear properties of conductive terminals with different coatings at low temperatures

[Display omitted] •The friction properties and wear mechanisms of conductive terminals are analysed.•Conductivity of different terminals when carrying current friction is compared.•Wear rate of conductive terminals at low temperatures be compared and discussed.•Wear properties of three different coa...

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Published in:Materials letters 2023-10, Vol.349, p.134897, Article 134897
Main Authors: Liu, Xin-long, Zhang, Song, Zhang, Ti-Ming, Xiao, Qian, Guan, Xin, Zhang, Wu-lue, Zheng, Yi-ting, Gao, Ming-sheng, Chen, Dao-yun, Yang, Wen-bing
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cited_by cdi_FETCH-LOGICAL-c306t-5262b653733f516f2421b6582b8388fd4e145f1063093b7db370224f8a80452e3
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container_end_page
container_issue
container_start_page 134897
container_title Materials letters
container_volume 349
creator Liu, Xin-long
Zhang, Song
Zhang, Ti-Ming
Xiao, Qian
Guan, Xin
Zhang, Wu-lue
Zheng, Yi-ting
Gao, Ming-sheng
Chen, Dao-yun
Yang, Wen-bing
description [Display omitted] •The friction properties and wear mechanisms of conductive terminals are analysed.•Conductivity of different terminals when carrying current friction is compared.•Wear rate of conductive terminals at low temperatures be compared and discussed.•Wear properties of three different coating conductive terminals are illuminated. In this paper, the electrical contact sliding wear and tribology properties of three kinds of surface coating (gold, silver, and tin) terminals at low temperature (-20 ℃) were studied by a reciprocating current-carrying friction tester. By comparing the wear performance response of different conductive terminals under different current conditions, it was found that an increase in current leads to large fluctuations in the coefficient of friction and increases the wear degree on the terminal surface. The electrical contact resistance also increases with increasing current. The surface gold-coating terminals mainly experience adhesive wear in the wear test, the surface of silver-coating terminals mainly experience abrasive wear during the friction test, and the tin-coating terminals mainly experience adhesive wear and a small amount of abrasive wear.
doi_str_mv 10.1016/j.matlet.2023.134897
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In this paper, the electrical contact sliding wear and tribology properties of three kinds of surface coating (gold, silver, and tin) terminals at low temperature (-20 ℃) were studied by a reciprocating current-carrying friction tester. By comparing the wear performance response of different conductive terminals under different current conditions, it was found that an increase in current leads to large fluctuations in the coefficient of friction and increases the wear degree on the terminal surface. The electrical contact resistance also increases with increasing current. 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In this paper, the electrical contact sliding wear and tribology properties of three kinds of surface coating (gold, silver, and tin) terminals at low temperature (-20 ℃) were studied by a reciprocating current-carrying friction tester. By comparing the wear performance response of different conductive terminals under different current conditions, it was found that an increase in current leads to large fluctuations in the coefficient of friction and increases the wear degree on the terminal surface. The electrical contact resistance also increases with increasing current. 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subjects Adhesive
Contact
Surface
Wear and tribology
title Study on the wear properties of conductive terminals with different coatings at low temperatures
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