Friction and wear properties of carbon nanotubes reinforced copper matrix composites with and without electric current

Wei Xu; Rui Hu; Yuan Gao; Hong Chao Kou; Jin Shan Li; Heng Zhi Fu

Friction and wear properties of carbon nanotubes reinforced copper matrix composites with and without electric current

Wei Xu, Rui Hu, Yuan Gao, Hong Chao Kou, Jin Shan Li, Heng Zhi Fu

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Carbon nanotubes reinforced copper matrix composites (CNT/Cu) containing 0, 5, 10, 12, and 15%(v/v) CNTs were prepared by powder metallurgy. Friction and wear properties of the composites with and without electrical current were investigated on a HST100 pin-on-disk friction and wear tester. The results showed that the friction coefficient and wear rate of composites with electrical current were higher than that without electric current, and the surface were worn severely. The friction coefficient and wear rate of the composites decreased with increasing the carbon nanotube content and the dominant wear mechanisms were electrical erosion and abrasive wear separately. The CNTs can improve the friction and wear properties of the composites with electric current.

Original language	English
Pages (from-to)	303-307
Number of pages	5
Journal	Mocaxue Xuebao/Tribology
Volume	30
Issue number	3
State	Published - May 2010

Keywords

CNT/Cu composites
Electrical current
Friction coefficient
Wear rate

Cite this

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title = "Friction and wear properties of carbon nanotubes reinforced copper matrix composites with and without electric current",

abstract = "Carbon nanotubes reinforced copper matrix composites (CNT/Cu) containing 0, 5, 10, 12, and 15%(v/v) CNTs were prepared by powder metallurgy. Friction and wear properties of the composites with and without electrical current were investigated on a HST100 pin-on-disk friction and wear tester. The results showed that the friction coefficient and wear rate of composites with electrical current were higher than that without electric current, and the surface were worn severely. The friction coefficient and wear rate of the composites decreased with increasing the carbon nanotube content and the dominant wear mechanisms were electrical erosion and abrasive wear separately. The CNTs can improve the friction and wear properties of the composites with electric current.",

keywords = "CNT/Cu composites, Electrical current, Friction coefficient, Wear rate",

author = "Wei Xu and Rui Hu and Yuan Gao and Kou, {Hong Chao} and Li, {Jin Shan} and Fu, {Heng Zhi}",

year = "2010",

month = may,

language = "英语",

volume = "30",

pages = "303--307",

journal = "Mocaxue Xuebao/Tribology",

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TY - JOUR

T1 - Friction and wear properties of carbon nanotubes reinforced copper matrix composites with and without electric current

AU - Xu, Wei

AU - Hu, Rui

AU - Gao, Yuan

AU - Kou, Hong Chao

AU - Li, Jin Shan

AU - Fu, Heng Zhi

PY - 2010/5

Y1 - 2010/5

N2 - Carbon nanotubes reinforced copper matrix composites (CNT/Cu) containing 0, 5, 10, 12, and 15%(v/v) CNTs were prepared by powder metallurgy. Friction and wear properties of the composites with and without electrical current were investigated on a HST100 pin-on-disk friction and wear tester. The results showed that the friction coefficient and wear rate of composites with electrical current were higher than that without electric current, and the surface were worn severely. The friction coefficient and wear rate of the composites decreased with increasing the carbon nanotube content and the dominant wear mechanisms were electrical erosion and abrasive wear separately. The CNTs can improve the friction and wear properties of the composites with electric current.

AB - Carbon nanotubes reinforced copper matrix composites (CNT/Cu) containing 0, 5, 10, 12, and 15%(v/v) CNTs were prepared by powder metallurgy. Friction and wear properties of the composites with and without electrical current were investigated on a HST100 pin-on-disk friction and wear tester. The results showed that the friction coefficient and wear rate of composites with electrical current were higher than that without electric current, and the surface were worn severely. The friction coefficient and wear rate of the composites decreased with increasing the carbon nanotube content and the dominant wear mechanisms were electrical erosion and abrasive wear separately. The CNTs can improve the friction and wear properties of the composites with electric current.

KW - CNT/Cu composites

KW - Electrical current

KW - Friction coefficient

KW - Wear rate

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M3 - 文章

AN - SCOPUS:77954297738

SN - 1004-0595

VL - 30

SP - 303

EP - 307

JO - Mocaxue Xuebao/Tribology

JF - Mocaxue Xuebao/Tribology

IS - 3

ER -

Friction and wear properties of carbon nanotubes reinforced copper matrix composites with and without electric current

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Keywords

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