Comparison of braking behaviors between iron- and copper-based powder metallurgy brake pads that used for C/C-SiC disc

Ma Xu; Luan Chenghua; Fan Shangwu; Deng Juanli; Zhang Litong; Cheng Laifei

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Comparison of braking behaviors between iron- and copper-based powder metallurgy brake pads that used for C/C-SiC disc

机译：用于C / C-SiC圆盘的铁和铜基粉末冶金制动垫之间制动行为的比较

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Powder metallurgy (PM) brake pads with stable friction behavior are one of the ideal choices for the counterparts of C/C-SiC brake disc that are expected to be applied to the future high-speed trains. In this study, ironand copper-based PM pads were used to mating with the C/C-SiC brake disc. After testing the brake pairs using a lab scale dynamometer, the C/C-SiC disc generated almost no wear loss. The coefficient of friction of the carbon/ceramic disc-PM pads brake pair varied nearly between 0.35 and 0.6 under different braking conditions. The analysis of friction surface indicated that the wear mechanism of Fe-based PM pads was mainly dominated by abrasion, while that of Cu-based pair mainly relied on adhesion and fatigue peeling.

机译：具有稳定摩擦性能的粉末冶金（PM）制动片是未来高速列车用C/C-SiC制动盘的理想选择之一。在本研究中，使用铁基和铜基粉末冶金衬块与C/C-SiC制动盘匹配。在使用实验室规模的测功机测试制动副后，C/C-SiC盘几乎没有产生磨损损失。在不同的制动条件下，碳/陶瓷盘式PM刹车片制动副的摩擦系数在0.35和0.6之间变化。摩擦表面分析表明，铁基粉末冶金摩擦副的磨损机制主要是磨损，而铜基粉末冶金摩擦副的磨损机制主要是粘着和疲劳剥落。

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来源
《Tribology International》 |2021年第1期|共12页
作者
Ma Xu; Luan Chenghua; Fan Shangwu; Deng Juanli; Zhang Litong; Cheng Laifei;
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作者单位

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

Changan Univ Sch Mat Sci &

Engn Xian 710064 Shaanxi Peoples R China;

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
C/C-SiC disc; Powder metallurgy pads; Braking behaviors; Wear mechanism;

机译：C / C-SiC盘;粉末冶金垫;制动行为;磨损机制;

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2. Characterization of airborne wear debris produced by brake pads pressed against HVOF-coated discs [J] . C. MENAPACE, A. MANCINI, M. FEDERICI, 摩擦（英文版） . 2020,第002期
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机译：用C / C-SiC盘配合高速列车的Cu基粉末冶金制动垫的制动行为
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机译：烧结金属制动片在C / C-SiC复合制动盘上的摩擦行为
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机译：Cr和CRFE粒子对Cu基粉末冶金制动垫制动行为的协同作用
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机译：暴露于刹车磨损碎片的体外人类3D肺细胞模型的生物学响应因刹车片配方而异
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机译：轿车两种制动改进的初步评价。双主缸和前盘式制动器

Comparison of braking behaviors between iron- and copper-based powder metallurgy brake pads that used for C/C-SiC disc

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