Study on the groove area effects on the friction-wear properties of a Cu-based wet clutch

Liang Yu; Biao Ma; Changsong Zheng; Man Chen; Qian Wang; Bin Zhang

doi:10.1016/j.triboint.2021.107096

Study on the groove area effects on the friction-wear properties of a Cu-based wet clutch

Liang Yu, Biao Ma, Changsong Zheng, Man Chen^*, Qian Wang, Bin Zhang

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

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

17 Citations (Scopus)

Abstract

The numerical model is proposed to investigate the micro-contact characteristics of asperity summits; moreover, the influence of groove area on the friction-wear properties of a Cu-based wet clutch is explored by the bench test. With the increase of rotating speed or applied pressure, the differences of the thermodynamic characteristics of clutches with different groove areas gradually narrow. However, reducing the groove area can reduce the wear of friction disc but increase the carbon black. The thermal environment is the worst in the middle of clutch, where friction components are most likely to fail. Therefore, the groove area should be designed based on the axial position of friction discs to optimize the friction-increasing and wear-reducing performance of the clutch.

Original language	English
Article number	107096
Journal	Tribology International
Volume	163
DOIs	https://doi.org/10.1016/j.triboint.2021.107096
Publication status	Published - Nov 2021

Keywords

Cu-based wet clutch
Friction torque
Friction-wear properties
Groove area

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10.1016/j.triboint.2021.107096

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title = "Study on the groove area effects on the friction-wear properties of a Cu-based wet clutch",

abstract = "The numerical model is proposed to investigate the micro-contact characteristics of asperity summits; moreover, the influence of groove area on the friction-wear properties of a Cu-based wet clutch is explored by the bench test. With the increase of rotating speed or applied pressure, the differences of the thermodynamic characteristics of clutches with different groove areas gradually narrow. However, reducing the groove area can reduce the wear of friction disc but increase the carbon black. The thermal environment is the worst in the middle of clutch, where friction components are most likely to fail. Therefore, the groove area should be designed based on the axial position of friction discs to optimize the friction-increasing and wear-reducing performance of the clutch.",

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AU - Yu, Liang

AU - Ma, Biao

AU - Zheng, Changsong

AU - Chen, Man

AU - Wang, Qian

AU - Zhang, Bin

PY - 2021/11

Y1 - 2021/11

N2 - The numerical model is proposed to investigate the micro-contact characteristics of asperity summits; moreover, the influence of groove area on the friction-wear properties of a Cu-based wet clutch is explored by the bench test. With the increase of rotating speed or applied pressure, the differences of the thermodynamic characteristics of clutches with different groove areas gradually narrow. However, reducing the groove area can reduce the wear of friction disc but increase the carbon black. The thermal environment is the worst in the middle of clutch, where friction components are most likely to fail. Therefore, the groove area should be designed based on the axial position of friction discs to optimize the friction-increasing and wear-reducing performance of the clutch.

AB - The numerical model is proposed to investigate the micro-contact characteristics of asperity summits; moreover, the influence of groove area on the friction-wear properties of a Cu-based wet clutch is explored by the bench test. With the increase of rotating speed or applied pressure, the differences of the thermodynamic characteristics of clutches with different groove areas gradually narrow. However, reducing the groove area can reduce the wear of friction disc but increase the carbon black. The thermal environment is the worst in the middle of clutch, where friction components are most likely to fail. Therefore, the groove area should be designed based on the axial position of friction discs to optimize the friction-increasing and wear-reducing performance of the clutch.

KW - Cu-based wet clutch

KW - Friction torque

KW - Friction-wear properties

KW - Groove area

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Study on the groove area effects on the friction-wear properties of a Cu-based wet clutch

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Keywords

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