[1]Weidong Tang, Yuhao Zhu, Cong Mao*, Xiaoming Kang, Shuhan Chen. Self-adaptive micro-hole breakout detection in the electrochemical discharge drilling process based on CNN-BiLSTM[J]. Journal of Manufacturing Processes, 2023, 103: 207-225.(1区TOP SCI) [2]Weidong Tang, Jize Zhang, Cong Mao*, Xiaoming Kang. Investigating discharge and material removal mechanisms in graphite powder-mixed ECDM[J]. Materials and Manufacturing Processes, 2023: 1-13.(2区SCI) [3]Weidong Tang, Jikai Yao, Jize Zhang*, Quancai Zhao, Lixiang Fan, Cong Mao, Xiaoming Kang, Xuyu Li, Shuhan Chen. Experimental Investigation of the Machining Characteristics in Graphite-Powder-Mixed Electrochemical Discharge Machining of Microholes in Glass[J]. Micromachines, 2023, 14(10): 1810.(JCR2区SCI) [4]Kang Xiaoming,Tang Weidong*,Wansheng Zhao, Jun Qian, Bert Lauwers. Experimental and numerical investigations of material removal process in electrochemical discharge machining of glass in discharge regime, Precision Engineering, 2021, 72: 706-716.(JCR 2区SCI) [5]Kang Xiaoming,Tang Weidong. Micro-drilling in ceramic-coated Ni-superalloy by electrochemical discharge machining[J]. Journal of Materials Processing Technology, 2018 , 255: 656-664.(JCR 1区SCI) [6]Weidong Tang,Yuhao Zhu, Xiaoming Kang*, Cong Mao. Experimental Investigation of Discharge Phenomena in Electrochemical Discharge Machining Process[J]. Micromachine, 2023, 14,367.(JCR 2区SCI) [7]Cong Mao,PengLong,Weidong Tang*, Linfeng Xiao, Yuanqiang Luo, Zhirui Shu, Yongle Hu, Z.M. Bi, Zhenheng Lin,Furu Guan. Simulation and experiment of electroplated grinding wheel with orderly-micro-grooves[J]. Journal of Manufacturing Processes, 2022, 79: 284-295.(JCR 2区SCI) [8]Weidong Tang, Xiaoming Kang, et al. Enhancement of electrochemical discharge machining accuracy and surface integrity using side-insulated tool electrode with diamond coating [J]. Journal of Micromechanics and Microengineering, 2017 , 27(6): 065013.(JCR 2区SCI) [9]Wang Fuliang,Tang Weidong, Han Lei. Variable-length link-spring model of wire-bonding looping process[J]. IEEE Transactions on Components, Packaging and Manufacturing Technology, 2013 , 3(8): 1279-1285.(JCR 2区SCI) [10]Wang Fuliang,Tang Weidong, Li Junhui, et al. Variable-Length Link-Spring Model for Kink Formation During Wire Bonding[J]. Journal of Electronic Packaging, 2013 , 135(4): 041004.(JCR 2区SCI) [11]Weidong Tang, Xiaoming Kang. Experimental Investigation of Gas Evolution in Electrochemical Discharge Machining Process[J]. INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE, 2019, 14(1): 970-984.(SCI) [12]Tang Weidong, Kang Xiaoming, Zhao Wansheng, et al. Discharge Characteristics in Electrochemical Discharge Machining of Ceramic-coated Ni-superalloy[J]. Procedia CIRP, 2020, 95: 737-742.(EI) [13]毛聪,孙鹏程,唐伟东,张明军,罗源嫱,胡永乐,张德嘉,唐昆,管付如.磨削白层特性及其与声发射信号的相关性[J].机械工程学报,2023,59(09):349-359.(EI) [14]唐伟东,王福亮,韩雷.基于可变杆元数连杆-弹簧模型的复杂引线成形过程建模与仿真[J].中南大学学报(自然科学版), 2015(11):4056-4061.(EI) [15]唐伟东,康小明.侧壁绝缘电极的微槽电化学放电加工特性研究[J].电加工与模具, 2018(04): 39-43. [16]Weidong Tang, Yanqi Sun, Xiaoming Kang, et al. Force feedback feed for electrochemical discharge machining (ECDM) micro-hole drilling [C]. 15th International Conference & Exhibition of the European Society of Precision Engineering and Nanotechnology. 2015.(EI) [17]Weidong Tang, Xiaoming Kang, Wansheng Zhao. Effects of electrode side insulation on electrochemical dischargemachining characteristics[C]. 2017 World Congress on Micro and Maro Manufacturing. 2017. [18]Xiaoming Kang,Weidong Tang, Wansheng Zhao.Microstructuring of quartz using the electrochemical discharge machining process [C]. 11th International Conference on Micro Manufacturing. March,2016. |
申请专利二十余项,代表性专利如下: [1]唐伟东,朱钰浩,朱星俊,等.一种搬运机器人的手爪、抓取系统及抓取方法,专利号: ZL202210023804.3. (发明专利,授权) [2]唐伟东,张继泽,朱钰浩,姚继开,刘通.一种磁流体驱动溶液的电化学放电加工微小孔方法及系统,专利号: ZL202111120370.5. (发明专利,授权) [3]唐伟东,毛聪,姚继开,张明军,唐昆,罗源嫱,张继泽,朱钰浩,刘通.一种电化学放电-磨削复合加工工具及其使用方法,中国发明专利,专利号: ZL202210227781.2,(发明专利,授权) [4]王福亮,陈云,唐伟东,李军辉,韩雷.一种引线成弧方法及装置,专利号: CN103077905A. (发明专利,授权) [5]Cong Mao, Zhikang Zhang, Yongle Hu, Jian Zhang, Mingjun Zhang, Kun Tang,Weidong Tang, Linfeng Xiao. Anti-agglomeration device using ultrasonic waves for a nanofluid. United States Patent,No.:US 10994249B1. Filed:20201103,Date of Patent:20210504.(美国发明专利,授权) [6]毛聪,李想,唐伟东,李长河,彭克立,胡永乐,郭吉恩,黄家浩.一种在线检测并实时修正槽型的砂轮开槽方法,中国发明专利,专利号:Zl202110182552.9.(发明专利,授权) [7]唐伟东,陈旭东,张继泽,姚继开,朱钰浩,刘通,毛聪.一种感应加热化学刻蚀方法及装置,专利号: 2021110947126.X. (发明专利,申请) [8]唐伟东,张继泽,姚继开,朱钰浩,刘通,覃经文,毛聪,张明军,唐昆,罗源嫱.一种孔内表面复合抛光方法及装置,专利号: 202111116459.4. (发明专利,申请) [9]唐伟东,刘神洲,张继泽,刘通,朱钰浩,姚继开,覃经文,毛聪,唐昆,张明军,罗源嫱.一种电弧增材与电化学减材复合制造方法及装置,专利号: 202111367079.3. (发明专利,申请) [10]唐伟东,王昕怡,朱钰浩,姚继开,张继泽,刘通,刘神洲,夏威,陈力然,谭广胜,田宇.一种电弧增材与电化学放电减材复合制造装置及方法,专利号: 202111534638.X. (发明专利,申请) |
