武汉理工大学交通与物流工程学院欢迎您

1）出版的专著：

[1]袁成清，董从林，郭智威.丁腈橡胶水润滑轴承材料磨损机理与寿命评估[M].武汉理工大学出版社，2019.（湖北省出版基金资助）

2）发表的论文

[1]Dong Conglin, Yang Yanyan, Yuan Chengqing*, Bai Xiuqin, Guo Zhiwei. Effects of anisotropy of lignum vitae wood on its tribological performances,Composites Part B-Engineering, 2022, 228:109426. （IF：11.3）

[2] Liu Shutian, Dong Conglin*, Yuan Chengqing*, Bai Xiuqin, Tian Ye, Zhang Guoliang. A new polyimide matrix composite to improve friction-induced chatter performance through reducing fluctuation in friction force. Composites Part B-Engineering, 2021, 228: 108887. （IF：11.3）

[3] Yuhang Wu, Conglin Dong*, Xiuqin Bai**, Chengqing Yuan. The roles of T-ZnOw and MoS2particles in the friction-induced vibration reducing the process of polymer. Materials & Design, 2022, 224: 111361. （IF：9.4）

[4]Dong Conglin, Yuan Chengqing*, Bai Xiuqin, Tian Ye. A novel approach to reduce deformation behaviors of HDPE polymer during friction. Applied Surface Science, 2020, 503: 144311.（IF：7.4）

[5] Liu Shutian, Dong Conglin*, Bai Xiuqin, Yuan Chengqing*. Friction reduction behaviors of natural wood with infusing oil. Friction, 2022, 10: 1824–1837. （IF：4.9）

[6] Wu Yuhang, Dong Conglin*, Bai Xiuqin**, Yuan Chengqing. Synergistic effects of ZnO whiskers and MWCNTs on the friction-induced vibration of a polymer.Tribology International, 2022, 167, 107383.（IF：5.6）

[7]DongConglin, YuanChengqing, XuAijie, BaiXiuqin, TianYu*. Rippled Polymer Surface Generated by Stick–Slip Friction.Langmuir, 2019, 35(7): 2878-2884.（IF：4.3）

[8]DongConglin, MoJiliang, YuanChengqing, BaiXiuqin, TianYu*.Vibration and noise behaviors during stick–slip friction. Tribology Letters, 2019, 67(103): 1-12.（IF：3.3）

[9]Dong Conglin,Yuan Chengqing*,Bai Xiuqin,Li Jian,Qin Honglin,Yan Xinping. Coupling mechanism between wear and corrosion processes of 304 stainless steel in hydrogen peroxide environments.Scientific Reports,2017, 7: 2327.（IF：4.9）

[10]Dong Conglin,Yuan Chengqing*,Bai Xiuqin,Qin Honglin,Yan Xinping. Investigating relationship between deformation behaviours and stick-slip phenomena of polymer material. Wear, 2017, 376–377：1333-1338.（IF：4.7）

[11]DongConglin,ShiLichun,Li Lvzhou,BaiXiuqin,YuanChengqing,TianYu*.Stick-slip behaviours of water lubrication polymer materials under low speed conditions. Tribology International,2017,106：55–61.（IF：5.6）

[12]DongConglin, Yuan Chengqing*, Wang Lei, Liu Wei, Bai Xiuqin, Yan Xinping.Tribological Properties of Water-lubricated Rubber Materials after Modification by MoS2 Nanoparticles.Scientific Reports, 2016, 6: 35023.（IF：4.9）

[13]Dong Conglin,Yuan Chengqing*,Bai Xiuqin,Yang Ying,Yan Xinping. Study on wear behaviours for NBR/stainless steel under sand water-lubricated conditions. Wear, 2015, 332-333：1012-1020.（IF：4.7）

[14] Dong Conglin,Yuan Chengqing*,Bai Xiuqin,Yan Xinping,Peng Zhongxiao. Tribological properties of aged nitrile butadiene rubber under dry sliding conditions. Wear, 2015,322-323：226-237.（IF：4.7）

[15] Dong Conglin,Yuan Chengqing*,Bai Xiuqin,Yan Xinping,Peng Zhongxiao. Study on wear behavior and wear model of nitrile butadiene rubber under water lubricated conditions. RSC Advances,2014,4：19034-19042.（IF：4.0）

[16] Dong Conglin,Yuan Chengqing*, Li Jian, Yan Xinping. Assessment model fortribological property of ceramic/stainless steel rubbing pairs in H2O2solution.Science China Technological Sciences,2013, 56（12）：3017-3023.（IF：4.7）

[17] Wu Yuhang, Dong Conglin*, Bai Xiuqin**, Yuan Chengqing, Zhang Xiangjun.  A novel green and low friction composite reinforced by lignum vitae chips, Polymer Testing, 2022, 115: 107768. （IF：4.9）

[18] Li Shifan, Dong Conglin*, Yuan Chengqing**, Bai Xiuqin. Friction-reducing and vibration-absorbing performances on a novel thermoplastic bearing material reinforced by nano-WS2and UHMWPE. Tribology International, 2022, 176: 107893.（IF：5.6）

[19] Zhang Liyuan, Dong Conglin*, Yuan Chengqing**, Bai Xiuqin, Tian Ye. The role of graphene nanoplatelets in the friction reducing process of polymer.Polymer Composites. 2022, 11, 43, 11: 8213-8227.（IF：3.5）

[20] Li Shifan, Dong Conglin*, Yuan Chengqing**, Bai Xiuqin. Molecular dynamics simulation on performance modulation of graphene-modified polyethylene during friction process. Polymers for Advanced Technologies, 2022, 33, 10: 3479-3489.（IF：3.3）

[21] Li Shifan, Dong Conglin*, Yuan Chengqing**, Liu Shutian, Bai Xiuqin. Effects of CeO2nano-particles on anti-aging performance of HDPE polymer during friction. Wear, 2021, 477: 203832. （IF：4.7）

[22] Wu Yuhang, Dong Conglin*, Yuan Chengqing, Bai Xiuqin**, Zhang Liyuan, Tian Ye. MWCNTs filled high-density polyethylene composites to improve tribological performance. Wear, 2021, 477: 203776. （IF：4.7）

[23] Zhang Liyuan, Yuan Chengqing*, Dong Conglin**, Yuhang Wu, Xiuqin Bai. Friction-induced vibration and noise behaviors of a composite material modified by graphene nano-sheets. Wear, 2021, 476: 203719. （IF：4.7）

[24] Liu Chuanbo, Liu Shutian*, Dong Conglin**, Yuan Chengqing, Bai Xiuqin. The reduction in the deformation of HDPE composites using self-lubricating fillers in an aqueous environment. Polymers2022, 14, 433.（IF：4.9）

3）专利：

[1]董从林，袁成清，张栗源，白秀琴，郭智威.一种木基减摩降振复合材料及其制备方法. 2021.06.30，中国，CN202110732986.1

[2]董从林，袁成清，刘书天，张栗源，白秀琴，郭智威.一种低速工况下船舶水润滑尾轴承的润滑剂自动供给系统. 2021.07.27，中国，202110850401.6.

[3]董从林，张家豪，郭智威，袁成清，白秀琴。一种船用二氧化碳灭火系统遥控施放箱的保护装置，申请公开号：201921006912.4（授权）。

[4]郭智威，黄齐韧，袁成清，董从林.一种仿生铁犁木结构的水润滑轴承材料及其成型工艺. 2021.07.07, 中国，202110766273.7.

[5]袁成清，吴祖旻，郭智威，白秀琴，董从林.船舶开式水润滑尾轴承试验台. 2019.10.28，中国，201911030628.5.

[6]白秀琴，王超宝，郭智威，袁成清，董从林.一种亲疏水两性微图案化高分子模板及其制备方法. 2018.02.27，中国，201810161375.4.

[7]严新平，刘正林，周新聪，朱汉华，袁成清，金勇，赵江滨，杨琨，白秀琴，郭智威，董从林.船舶轴系综合试验平台，2012.12.12，中国，201210532432.8.

[8]袁成清，何树海，陈云瑶，孙玉伟，林杰，汤旭晶，赵江斌，白秀琴，董从林，严新平.船用光伏发电并网实验平台. 2012.5.2, 中国, ZL201210131419.1. 

[9]袁成清，郭智威，刘鹏，严新平，董从林.一种柴油机缸套与活塞环之间油膜厚度检测装置. 2011.11.30，中国，ZL201120488483.6.