近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
[1] Zhao Ji, Kondo T., et al. Study on automatic polishing of mould curved surfaced at constant pressure intensity. Chinese Journal of Mechanical Engineering(in English), 1994, 7(4): 296~302.
[2] Zhao J, Saito K. et al. A new method of automatic polishing on curved aluminum alloy surfaces at constant pressure. International Journal of Machine Tools and Manufacture, 1995, 35 (12): 1683~1692.
[3] 赵继,五十岚梧等. Study on automatic of injection mold. Journal of the Society of Grinding Engineers(日本), 1995,39(4): 30~33.
[4] Yu Miao, Zhao Ji et al. Collision prediction in robotic ultrasonic polishing of moulds with curved surfaces. CIRP International Symposium, August 1997:935~938.
[5] Zhao Ji, Zhan Jianming et al. Force control and its effects on the polishing results in the robot ultrasonic polishing. Proceedings of 1999 Int. Conf. On Advanced Manufacturing Technology (Xi’an, China ), June, 1999:113~117.
[6] Zhao Ji, Zhan Jianming, Jin Rencheng, Tao Minzhong. An oblique ultrasonic polishing method by robot for free-form surfaces. International Journal of Machine Tools and Manufacture, 2000, 40(6):795~808.
[7] 赵继, 詹建明等.机器人弹性超声研磨自由曲面的过程识别与优化.机械工程学报, 2000, 36(1), 71~74.
[8] 祝佩兴, 赵继等. 机器人超声—电火花复合加工模具曲面的干涉预报与实验研究. 中国机械工程, 2000, 11(10), 1173~1175.
[9] 詹建明, 赵继等. 机器人超声研抛自由曲面的精加工系统. 中国机械工程, 2000, 11(8), 852~854.
[10] 金仁成,赵继等. 机器人研磨压力数据采集系统中信号的滤波.吉林工业大学学报(学术榜), 2000, 30(1): 25-28.
[11] Zhan Jianming, Zhao Ji, Yu Miao. Compliant EDM for free-form surfaces polishing. Key Engineering Materials, 2001, 202-2:73~78.
[12] Zhan Jianming, Zhao Ji, Xu Shuxin, Zhu Peixing. Study of the control force in free-form-surfaces compliant EDM polishing by robot. Journal of Materials Processing Technology, 2002, 129(1-3):186~189.
[13] Yu Miao, Zhao Ji, Zhong Sheng, Zhang Lei. Study on dynamics of virtual axis hybrid polishing machine tool with clearance. Proceedings of 7th International Conference on Progress of Machining Technology, Suzhou, China, December 8-11, 2004, 123~128.
[14] Yu Miao, Zhao Ji, Zhu Peixing, Zhang Daizhi. Dynamics model of rigid-flexible coupling for a five degrees of freedom virtual axis polishing machine tool. Proceedings of the 11th World Congress in Mechanism and Machine Science, Tianjin, China. April 1-4, 2004, 652~655.
[15]于淼, 赵继, 张代治, 祝佩兴. 混联虚拟轴研抛机床的多柔体动力学研究.机械科学与技术, 2004, 23(6), 748~751.
[16] Yu Miao, Zhao Ji, Zhang Lei, Wang Yiqiang, Study on the dynamic characteristics of a virtual-axis hybrid polishing machine tool by flexible multi-body dynamics, Proceedings of the Institution of Mechanical Engineers, Part B, Journal of Engineering Manufacture, 2004, 218 (9): 1067~1076.
[17] Chen Yueyan, Zhao Ji, Wang Bidou, Han Shuang. A high-precision fuzzy control algorithm with self-regulating factor for trajectory tracking in virtual axis polishing machine tool. IECON Proceedings (Industrial Electronics Conference), 2004, 3:1997~1999.
[18] Zhan Jianming, Zhao Ji, Zhang Fu and Zhu Yuxiang. Study of posture optimization of polishing tool for robotic free-form surfaces ultrasonic polishing. Key Engineering Materials, 2004, 259-2: 778~782.
[19] Chen Yueyan, Zhao Ji, Wang Bidou, Han Shuang. High precision fuzzy impedance control of free-form surfaces polishing robotic arm based on position control. Proceedings of the 2005 IEEE/ASME International Conference on Advanced Intelligent Mechatronics, AIM 2005, 2005:819~824.
[20]林洁琼, 赵继, 王义强, 张代治. 虚拟轴机床研抛模具自由曲面的分片规划. 农业机械学报, 2005, 36(9): 123~127.
[21] 林洁琼, 赵继, 张雷, 王义强. 虚拟轴混联机床研抛模具自由曲面的分片规划. 现代制造工程, 2005, (8): 66~68.
[22] 徐立国, 赵继. NURBS曲面无退刀双螺旋线轨迹规划法. 中国机械工程, 2006, 17(18):1924~1927.
[23] Han Shuang, Zhao Ji, Liu Zhixin. Simulation Research of Self-adaptation Fuzzy-IMC Algorithm Based on Virtual-axis polishing Machine Tool. Proceedings of 32th Annual Conference of IEEE Industrial Eelctronics Society, IECON 2006, pp 179~183.
[24] Zhan Jianming, Cao Zhiqiang, Zhao Ji. Path planning for robot in free-form surfaces polishing. Key Engineering Materials, 2006, 304-305: 426~430.
[25] Yu M, Zhao J, Ma Wentao. Study on the modeling and experiments for the virtual axis hybrid polishing machine tool by the flexible multibody dynamics. Key Engineering Materials, 2006, 304-305: 502~506.
[26] 林洁琼, 赵继, 王义强, 祝佩兴. 采用混联机床研抛模具自由曲面. 吉林大学学报(工学版),2006, 36(2):209~212.
[27] Yu Miao, Zhao Ji. A study of the inverse dynamics of a hybrid polishing kinematical machine tool based on the flexible multi-body systems. International Journal of Computer Applications in Technology, 2007, 29(2-4): 191~194.
[28] Zhao Ji, Cao Zhiqiang, Zhan Jianming, et al. Research on hydrodynamic suspension nanoscale polishing for K9 optical glass. International Journal of Computer Applications in Technology, 2007, 29(2-4):257~261.
[29] 韩霜, 赵继, 刘志新.串-并混联式研抛机床的开放式数控系统研究.中国机械工程,2007, 18(16): 1913~1916.
[30] 韩霜, 刘志新, 杨旭, 赵继. 基于组件技术的开放式数控系统体系结构研究. 农业机械学报, 2007, 38(10): 156~160.
[31]徐立国, 赵继. 基于重叠分片法的仿人研磨螺旋线路径规划. 农业机械学报, 2007, 38(2): 168~171.
[32] 徐立国, 赵继. 仿人研抛NURBS曲面的五坐标加工轨迹优化. 中国机械工程, 2007, 18(1):65~70.
[33] 徐立国, 赵继.五坐标虚拟轴弹性研抛机床的环形轨迹规划. 农业机械学报, 2007, 38(4): 167~171.
[34] 谢哲东, 赵继, 张雷. 大型模具曲面微小研抛机器人动力学仿真. 农业机械学报, 2007, (10): 104~107.
[35] 谢哲东, 赵继, 王义强, 张雷. 微小研抛机器人开放式控制系统研究. 机械制造, 2007, 45(7): 1~4