The effect of crystallinity of potassium titanate whisker on the tribological behavior of NAO friction materials

The effect of crystallinity of potassium titanate whisker on the tribological behavior of NAO friction materials

In this study, the effect of crystallinity of potassium titanate whisker on the tribological behavior was investigated. The higher crystallinity whiskers showed enhanced ability in improving the friction coefficient than the lower crystallinity whiskers. During the fade testing process, low crystall...

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Veröffentlicht in:Tribology international 2017-03, Vol.107, p.213-220
Hauptverfasser: Ji, Zhengjia, Jin, Hongyun, Luo, Wanyue, Cheng, Feiran, Chen, Yong, Ren, Yazhou, Wu, Yaoqing, Hou, Shuen
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Sprache:eng
Schlagworte:
Crystal structure
Crystallinity
Debris
Friction
Friction and wear
Friction material
Friction resistance
Potassium
Potassium titanate whisker
Tribology
Wear
Wear particles
Wear resistance
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container_end_page 220
container_issue
container_start_page 213
container_title Tribology international
container_volume 107
creator Ji, Zhengjia
Jin, Hongyun
Luo, Wanyue
Cheng, Feiran
Chen, Yong
Ren, Yazhou
Wu, Yaoqing
Hou, Shuen
description In this study, the effect of crystallinity of potassium titanate whisker on the tribological behavior was investigated. The higher crystallinity whiskers showed enhanced ability in improving the friction coefficient than the lower crystallinity whiskers. During the fade testing process, low crystallinity whiskers were more effective to stabilize the friction coefficient. During the recovery testing process, high crystallinity whiskers were more effective to stabilize the friction coefficient. High crystallinity whiskers were more effective in the improvement of wear resistance. In order to understand the friction and wear behaviors, the worn surfaces and wear debris were analyzed by means of SEM. The results revealed that the higher crystallinity whiskers was significant to form stable contact plateaus. •The K2Ti6O13 synthesized by hydrothermal method were used in NAO friction materials.•The low crystallinity whiskers improved fade performance.•The high crystallinity whiskers improved recovery performance and friction stability.•Composite reinforced with high crystallinity whiskers showed good wear resistance.
doi_str_mv 10.1016/j.triboint.2016.11.022
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The higher crystallinity whiskers showed enhanced ability in improving the friction coefficient than the lower crystallinity whiskers. During the fade testing process, low crystallinity whiskers were more effective to stabilize the friction coefficient. During the recovery testing process, high crystallinity whiskers were more effective to stabilize the friction coefficient. High crystallinity whiskers were more effective in the improvement of wear resistance. In order to understand the friction and wear behaviors, the worn surfaces and wear debris were analyzed by means of SEM. 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subjects Crystal structure
Crystallinity
Debris
Friction
Friction and wear
Friction material
Friction resistance
Potassium
Potassium titanate whisker
Tribology
Wear
Wear particles
Wear resistance
title The effect of crystallinity of potassium titanate whisker on the tribological behavior of NAO friction materials
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