北京科技大学主页平台管理系统章林--中文主页--论文成果

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教师英文名称：Zhanglin

职称：研究员

博士生导师

毕业院校：北京科技大学

学科：材料学

学历：研究生

学位：博士

所在单位：新材料技术研究院

职务：新材料技术研究院粉末冶金研究所所长

论文成果

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[1]Zhang Peng, Zhang Lin*, Wei Dongbin, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. Substance evolution and wear mechanism on friction contact area of brake disc for high-speed railway trains at high temperature. Engineering Failure Analysis, 2020, 111: 104472..
[2]Zhang Peng, Zhang Lin*, Fu Kangxi, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. The effect of Al2O3 fiber additive on braking performance of copper-based brake pads utilized in high-speed railway train. Tribology International, 2019, 135: 444-456..
[3]Zhang Peng, Zhang Lin*, Fu Kangxi, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. Fade behaviour of copper-based brake pad during cyclic emergency braking at high speed and overload condition. Wear, 2019, 428-429: 10-23..
[4]Zhang Peng, Zhang Lin*, Fu Kangxi, Cao Jingwu, Shijia Cairang, Qu Xuanhui. Effects of different forms of Fe powder additives on the simulated braking performance of Cu-based friction materials for high-speed railway trains. Wear, 2018, 414-415: 317-326..
[5]Zhang Peng, Zhang Lin*, Wei Dongbin, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui, Fu Kangxi. Effect of graphite type on the contact plateaus and friction properties of copper-based friction material for high-speed railway train. Wear, 2019, 432-433: 202927..
[6]Zhang Peng, Zhang Lin*, Wu Peifang, Cao Jingwu, Shijia Cairang, Wei Dongbin, Qu Xuanhui. Effect of carbon fiber on the braking performance of copper-based brake pad under continuous high-energy braking conditions. Wear, 2020, 458-459: 203408..
[7]Zhang Peng, Zhang Lin*, Wei Dongbin, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. A high-performance copper-based brake pad for high-speed railway trains and its surface substance evolution and wear mechanism at high temperature. Wear, 2020, 444-445: 203182..
[8]Zhang Peng, Zhang Lin*, Wei Dongbin, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. Adjusting function of MoS2 on the high-speed emergency braking properties of copper-based brake pad and the analysis of relevant tribo-film of eddy structure. Composites Part B-Engineer, 2020, 185: 107779..
[9]Chen Xiaowei, Zhang Lin*, Liu Ye, Gao Xiaoyong, Li Dan, Lu Huifeng, Qu Xuanhui. Phase evolution and densification behavior of MIM418 superalloy utilizing master alloy approach. Journal of Alloys and Compounds, 2019, 771(15): 33-41..
[10]Zhang Lin*, Qu Xuanhui, He Xinbo, Rafiud Din, Qin Mingli, Zhu Hongmin. Hot deformation behavior of Co-base ODS alloys. Journal of Alloys and Compounds, 2012, 512(1): 39-46..

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