[1]Ming-xue Shen*, Chen Yan, Junhua Du, Hanxin Li, Yaoping Zou, Yelong Xiao. Preventing insufficient braking force in wading conditions by strategic use of surface texture on brake discs[J]. Wear, 2024, 540–541: 205261.
[2]Ming-xue Shen*, Jia-qiang Li, Lan Li, Sheng-xin Li, Chun‑ying Ma. Adhesion and Damage Behaviour of Wheel–Rail Rolling–Sliding Contact Suffering Intermittent Airflow with Different Humidities and Ambient Temperatures[J]. Tribology Letters, 2024, 72, 18.
[3]Mingxue Shen*, Bin Rong, Qiuping Li, Meng Yu, Jiaqiang Li, Huoping Zhao*. Different responses of wheel-rail interface adhesion and wheel surface damage induced by wheel tread out–of–roundness [J]. Wear, 2023, 526–527: 204956.
[4]Yu Cheng (员工一作), Yelong Xiao*, Junhua Du, Dehui Ji, Mingxue Shen*. Size effect of CrFe particles on tribological behavior and airborne particle emissions of copper metal matrix composites [J]. Tribology International, 2023, 183: 108376.
[5]Ming-xue Shen, Han-xin Li, Jun-hua Du, De-hui Ji, Shao-peng Liu, Ye-long Xiao*. New insights into reducing airborne particle emissions from brake materials: Grooved textures on brake disc surface [J]. Tribology International, 2022, 174: 107721.
[6]De-hui Ji (员工一作), Han-xin Li, Ming-xue Shen*, Huo-ping Zhao, Qiang Hu, Xin-Long Liu, Guang-yao Xiong. The role of relatively humidity in friction and wear behaviors of carbon sliding against copper with electric current [J]. Surface Topography: Metrology and Properties, 2021, 9(4): 048001.
[7]Kang-jie Rong (员工一作), Ye-long Xiao, Ming-xue Shen*, Huo-ping Zhao, Wen-Jian Wang, Guang-yao Xiong. Influence of ambient humidity on the adhesion and damage behavior of wheel–rail interface under hot weather condition[J]. Wear, 2021, 486–487: 204091.
[8]Bo Li (员工一作), Sheng-xin Li, Ming-xue Shen*, Ye-long Xiao, Jian Zhang, Guang-yao Xiong, Zhi-nan Zhang*. Tribological behaviour of acrylonitrile-butadiene rubber under thermal oxidation ageing[J]. Polymer Testing, 2021, 93: 106954.
[9]Ming-xue Shen, Bo Li, De-hui Ji, Xiao-Rong He, Xiu-zhou Lin*, Guang-yao Xiong*. Effect of contact stress on the tribology behaviors of PTFE/316L seal pairs under various abrasive-contained conditions[J]. Part J: Journal of Engineering Tribology, 2021, 235(3):639–652.
[10]Ming-xue Shen, Bo Li, Zhinan Zhang*, Longzhi Zhao, Guangyao Xiong*. Abrasive Wear Behavior of PTFE for Seal Applications under Abrasive-atmosphere Sliding Condition[J]. Friction, 2020, 8(4): 755-767.
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