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[1]Minwen, Deng, Taimin, Yao, Haibin, Yelong, Xiao, Yongqiang, Fan, Pingping*, Zhou, Zhongyi, Zhang, Kunyang, Gong, Lin, Zhao, Liu. Effect of Fe and Cr on the Macro/Micro Tribological Behaviours of Copper-Based Composites [Article]. MATERIALS, 2021, 14(12):
[2]Deng, Lin, Zhao, Taimin, Zhang, Haibin, Zhou, Pingping*, Yao, Yelong, Xiao, Minwen, Gong, Zhongyi. Investigation on Speed-Load Sensitivity to Tribological Properties of Copper Metal Matrix Composites for Braking Application [Article]. METALS, 2020, 10(7):
[3]Deng, Kunyang, Fan, Lin, Zhao, Zhongyi, Zhang, Yelong, Xiao, Gong, Pingping*, Yao, Zhou, Minwen, Taiming, Haibin. Effects of ZrO2 crystal structure on the tribological properties of copper metal matrix composites [Article]. TRIBOLOGY INTERNATIONAL, 2019, 138: 380-391
[4]Fenghua, Yelong, Xiao, Zhongyi, Zhang, Deng, Haibin, Taiming, Gong, Yao, Lin, Zhao, Luo, Zonghao, Wang, Minwen, Zhou, Pingping*. Effect of Adding Tungsten Disulfide to a Copper Matrix on the Formation of Tribo-Film and on the Tribological Behavior of Copper/Tungsten Disulfide Composites [Article]. TRIBOLOGY LETTERS, 2019, 67(13):
[5] Effect of CNTs in Copper Matrix on Mechanical Characteristics and Tribological Behavior under Dry Sliding and Boundary Lubrication Conditions [Article]. MATERIALS, 2019, 12(13):
[6]Minwen, Lin, Yelong, Xiao, Zhongyi, Haibin, Xiang, Xiong, Pingping*, Yao, Zhao, Deng, Zhang, Zhou, Taimin, Gong. Microstructure and tribological behavior of interfaces in Cu-SiO2 and Cu-Cr metal matrix composites [Article]. JOURNAL OF ALLOYS AND COMPOUNDS, 2019, 786: 975-985
[7]Minwen, Deng, Zhao, Zhang, Kunyang, Fan, Yelong, Xiao, Pingping*, Yao, Haibin, Zhou, Chao, Pan, Ling, Liu, Lin, Taiming, Gong, Zhongyi. Friction and wear maps of copper metal matrix composites with different iron volume content [Article]. TRIBOLOGY INTERNATIONAL, 2019, 132: 199-210
[8]Yelong, Haibin, Zhou, Kunyang, Fan, Pingping*, Yao, Xiao, Zongxiang, Jin, Deng, Minwen. Powder metallurgy processed metal-matrix friction materials for space applications [Article]. FRICTION, 2018, 6(2): 219-229
[9]Minwen, Lin, Fan, Yao, Zhongyi, Zhang, Xiao, Deng, Yelong, Haibin, Zhao, Taimin, Gong, Zhou, Kunyang, Pingping*. Mechanical and tribological behaviors of copper metal matrix composites for brake pads used in high-speed trains [Article]. TRIBOLOGY INTERNATIONAL, 2018, 119: 585-592
[10]Aiwen, Zhong, Minwen, Deng, Xiaoting, Qi, Wang, Xiao, Pingping*, Yao, Taimin, Gong, Zhou, Zhao, Yelong, Haibin, Lin, Zhongyi, Zhang, Zuo. Influence of WC carbide particle size on the microstructure and abrasive wear behavior of WC-10Co-4Cr coatings for aircraft landing gear [Article]. WEAR, 2016, 362: 135-145
[11]Minwen, Deng, Yao, Taimin, Gong, Haibin, Zhou, Zhao, Zhang, Huiqiang, Fan, Yelong, Pingping*, Lin, Zhongyi, Tan, Kunyang, Xiao. Wear map for a copper-based friction clutch material under oil lubrication [Article]. WEAR, 2015, 328: 270-276
[12]Jin, Minwen, Deng, Xiaoting, Lin, Zhao, Taimin, Gong, Zhongyi, Zhang, Haibin, Zhou, Pingping*, Yao, Yelong, Xiao, Zongxiang, Zuo. Friction and wear behavior of copper matrix composite for spacecraft rendezvous and docking under different conditions [Article]. WEAR, 2014, 320: 127-134
[13]Yao Ping-ping, Chen Jie, Sheng Hong-chao, Xiong Xiang*. Effects of sintering pressure and temperature on microstructure and tribological characteristic of Cu-based aircraft brake material [Article]. TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA, 2007, 17(4): 699-675
[14] Friction and wear behaviors and mechanisms of Fe and SiO2 in Cu-based P/M friction materials [Article]. WEAR, 2007, 262(9-10): 1182-1186
[15]Xiong Xiang, Sheng Hong-chao, Yao Ping-ping*, Huang Bai-yun. Worn surface characteristics of Cu-based powder metallurgy bake materials for aircraft [Article]. TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA, 2007, 17(1): 99-103
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