代表作:
[1]Zhibin Yu, Zhenyu Zhang*, Zinuo Zeng, Cheng Fan*, Yang Gu, Chunjin Shi*, Hongxiu Zhou*, Fanning Meng, Junyuan Feng. Atomic surface of diamond induced by novel green photocatalytic chemical mechanical polishing with high material removal rate. International Journal of Extreme Manufacturing. 2025, 7: 025102. (IF=16.1)
[2]Feng Zhao, Zhenyu Zhang*, Hongxiu Zhou*, Leilei Chen*, Kuo Hai, Liwei Wu, Jiahao Yu, Zefang Zhang, Cheng Fan*. Unprecedented developed composite polishing system to achieve atomic surface integrating rough and fine polishing using a novel hyper-conjugated pad through controlling the temperature of a proposed green slurry. Advanced Composites and Hybrid Materials, 2025, 8: 234. (IF=23.2)
[3]Jun Zhao*, Wenbing Wang, Xianwei Qiu, Zixuan Wang*, Cheng Fan*. Material removal profile model simulations and experiments on the non-contact shear thickening polishing of K9 glass. Journal of Manufacturing Processes. 2025, 134: 435-451.
[4]Cheng Fan, Xue Qi, Senhao Xie, Binbin Meng, Fusheng Liang, Zhao Wang, Jun Zhao, Tao Chen, Wule Zhu, Xiaofei Yang. Material Removal Prediction and Abrasive Swarm Performance in Electrorheological Polishing of Zirconium-based Amorphous Alloy with Multi-layer Electrodes. Tribology International, 2025, 2025, 204: 110508.
[5]Zhibin Yu, Zhenghao Jia, Wei Liu*, Zhenyu Zhang*, Feng Zhao, Cheng Fan*, Hansheng Zhang, Yiqiang Lyv, Dongdong Liu. Facet-Dependent oxidative fabrication of diamond determined by operando scanning electron microscopy. Nano Letters, 2025, 25, 5391−5397. (IF=9.6)
[6]Cheng Fan, Reng Zhang , Jianfa Bu, Zhao Wang, Fusheng Liang*, Tao Chen, Lei Zhang, Wei Ji, Zhenyu Zhang, Xuan Li, arian Wiercigroch*, Jun Zhao*,Yanjun Han*. International Journal of Mechanical Sciences. 294 (2025) 110246.
[7]Zhao Wang, Zixuan Wang, Yingdong Liang, Fanwei Meng, Zhijie Cui, Tao Chen, Yue Yang*, Cheng Fan*, Tianbiao Yu, Ji Zhao. Modelling of polyurethane polishing pad surface topography and fixed-point polished surface profile. Tribology International, 2024, 195, 109646.
[8]Cheng Fan, Wei Jiang, Congyu Zha, Zhao Wang, Tao Chen, Fusheng Liang. A new end edge repairing method for flat end mills on a four-axis machine tool using an irregular grinding wheel.Journal of Manufacturing Processes, 2024, 112: 313-328.
[9]Cheng Fan, Xingfeng Wang, Kaixuan Liu, Yigang Chen, Fusheng Liang, Zhao Wang, Jun Zhao. Material removal mechanism in and experiments of electrorheological polishing of foldable intraocular lenses at low temperatures. Journal of Manufacturing Processes. 2023, 101: 1032-1045.
[10]Guang Xia, Zirui Wang, Qingyu Yao, Ping Sun, Huaijun Guan, Yongguang Wang*, Cheng Fan*, Da Bian, Dong Zhao, Yongwu Zhao. Modeling of material removal rate considering the chemical mechanical effects of lubricant, oxidant, and abrasive particles for aluminum chemical mechanical polishing at low pressure. Wear, 2023, 530-531, 205023.
[11]Zhao Wang, Zhelun Ma, Tao Chen*, Cheng Fan*,Tianbiao Yu, Ji Zhao. Experimental investigation into the effect of process parameters on the Inconel 718 surface integrity for abrasive waterjet peening. Surface & Coatings Technology, 2023, 454, 129186.
[12]Cheng Fan, Kaixuan Liu, Yigang Chen, Jun Zhao, Andrei Khudoley. A new modelling method of material removal profile for electrorheological polishing with a mini annular integrated electrode. Journal of Material Processing Technology. 2022, 305: 117589.
[13]Lei Zhang, Chen Ding, Zhao Wang, Cheng Fan*. Multiphase flow field analysis and experimental study of pulsating air jet polishing. Journal of Manufacturing Science and Engineering- Transactions of the ASME. 2022, 144(12): 121014.
[14]Lei Zhang, Chen Ding, Yanjun Han, Zhirui Zhang, Cheng Fan*. Investigation into a novel pulsating cavitation air jet polishing method for Ti-6Al-4V alloy. Tribology International. 2022,175, 107837.
[15]Lei Lu, Lei Zhang, Cheng Fan*, Hao Wang*. High-order joint-smooth trajectory planning method considering tool-orientation constraints and singularity avoidance for robot surface machining. Journal of Manufacturing Processes. 2022, 80, 789-804.
[16]Jun Zhao, YongChao Xiang, Cheng Fan*. A new method for polishing the inner wall of a circular tube with a soft abrasive rotating jet. Powder Technology, 2022(398):117068.
[17]Qian Wang#,Cheng Fan#, Yuecheng Gui, Lei Zhang, Junqiu Zhang, Lining Sun, Kejun Wang, Zhiwu Han.Engineered Mechano-sensors inspired by Biological Mechano-sensilla. Advanced Materials Technologies. 2021, 2100352.
[18]Cheng Fan, Geok Soon Hong, Ji Zhao, Yoke San Wong, Lei Zhang, Jun Zhao. Integral sliding mode control of a pneumatic force servo for the polishing process. Precision Engineering, 2019, 55:154-170.
[19]Cheng Fan, Ji Zhao, Lei Zhang, Yoke San Wong, Geok Soon Hong, Wansong Zhou. Modeling and analysis of the material removal profile for free abrasive polishing with sub-aperture pad [J]. Journal of Materials Processing Technology, 2014, 214(2): 285-294.
[20]Jianwei Ji, Cheng Fan*, Binbin Meng*. Optimizing machinability and minimizing dislocation slip in hexagonal silicon carbide: The role of off-axis angle and processing surface type. Journal of Manufacturing Processes. 2024, 132, 26: 93-104.
专利(部分):
[1] 樊成,陈国栋,龚勋等.一种气囊抛光工具、系统和方法.申请号:201410669176.6, 授权公告日:2016.10.10(发明专利)
[2] 樊成,张雷,赵启智,陆耀. 使用气囊抛光处理非球面的路径生成方法:中国,ZL 2018 1 14211942.7[P]. 2019-11-29. (发明专利)
[3] 樊成,张雷,薛宇程. 一种利用电流变效应抛光人工晶状体的装置及方法. 申请号:202010123479.3. 申请日:2020年2月27日. (发明专利)
[4] 韩艳君,张雷,樊成,安东尼布康,朱吴乐. 浸没式气射流驱动抛光设备及抛光方法. 申请号:202010119034.8. 申请日:2020年2月26日. (发明专利)
[5] 樊成,张雷,缪宇杰,归悦承. 精密磨床自动上下料装置及上下料方法.申请号:2020109085570 申请日:2020/9/2. (发明专利)
[6] 樊成,张雷,薛曹阳,丁晨,王可军,王倩. 一种微型刀具的刃磨工艺. 申请号:202011211479.0. 申请日:2020/11/4. (发明专利)
[7] 樊成,张雷.数控铣刀端面修磨装置及修磨方法.专利号:ZL 202110314359.6.授权公告日:2022年7月8日 (发明专利)
[8] 樊成,张雷,薛曹阳. 一种微型刀具的刃磨方法. 专利号:ZL202210895510.4. 专利申请日:2022年7月28日,授权公告日:2022年11月22日.