教师介绍

宫 虎

来源:更新时间:2020-04-24

姓 名 宫虎
职 称 副研究员
所在系别 精密仪器工程系
所属课题组 微纳制造与测试研究所
电子邮件 gonghu@tju.edu.cn
导师类型 仪器科学与技术——博导、硕导
办公地址 卫津路校区北洋科学楼2011室
主讲课程 《精密机械设计基础A》、《精密机械设计基础B》、《精密机械课程设计》
通讯地址 天津市南开区卫津路92号天津大学精仪学院
邮政编码 300072
研究方向

  数字化制造、精密/超精密加工、超声波辅助加工、机器人集成制造

  欢迎诚信务实,且对精密与智能制造算法、工艺、装备的研究有兴趣的学生报考。招生专业范围:测控、机械、自动化、计算机。

论文、专著
  1. 1. Kuntao Huang, Chen-Han Lee, Changya Yan*, Hu Gong. Study on a 2D field-based multi-objective tool-axis optimization algorithm based on covariant field theory for five-axis tool path generation. The International Journal of Advanced Manufacturing Technology. (accept)
  2. 2. Hu Gong*, Shenjun Ao, Kuntao Huang, Yi Wang, Changya Yan. Tool path generation of ultra-precision diamond turning: A state-of-the-art review, Nanotechnology and Precision Engineering, 2(3):118-124, 2019.
  3. 3. Runbo Fan, Yijia Sun, Hu Gong*, Jian Zhang, Changya Yan, Tool path generation for 5-axis engraving in bangles with art patterns, Journal of Industrial and Production Engineering, 36: 546-553, 2019.
  4. 4. 宫虎*,陈芳琪,王涛,倪皓,孙艺嘉. 陶瓷人工髋关节球超精密磨削加工微观纹理形成规律,光学精密工程,2019年第9期,1926-1934.
  5. 5. Yi-Jia Sun, Changya Yan, Shu-Wei Wu, Hu Gong*, Chen-Han Lee. Geometric simulation of hybrid additive-subtractive manufacturing based on Tri-dexel model, International Journal of Advanced Manufacturing Technology, 99:2597-2610, 2018.
  6. 6. Guotao Yin, Zhenghe Zhu, Hu Gong*, Zhenfeng Lu, Huashan Yong, Lei Liu, Wei He. Flexible punching system using industrial robots for automotive panels, Robotics and Computer Integrated Manufacturing, 52:92-99, 2018.
  7. 7. Hao Ni, Yi Wang, Hu Gong*, Long Pan, Z. J. Li, Dongfang Wang. A novel freeform transducer for the ultra-precision diamond cutting of die steel, International Journal of Advanced Manufacturing Technology, 95:2185-2192, 2018.
  8. 8. Hao Ni, Hu Gong*, Y. H. Dong, F. Z. Fang, Yi Wang. A comparative investigation on hybrid EDM for drilling small deep holes, International Journal of Advanced Manufacturing Technology, 95:1465-1472, 2018.
  9. 9. Kun-Tao Huang, Zhenyu Zhang,Hu Gong*, Z. J. Li, F. Z. Fang, Dongfang Wang. Constructing smooth tool orientation field based on radial basis function for 5-axis machining, International Journal of Advanced Manufacturing Technology, 91(1-4): 1369-1379, 2017.
  10. 10. Yi Wang, Hu Gong*, F. Z. Fang, Hao Ni. Kinematic view of the cutting mechanism of rotary ultrasonic machining by using spiral cutting tools, International Journal of Advanced Manufacturing Technology, 83(1-4): 461-474, 2016.
  11. 11. Kun-Tao Huang, Hu Gong*, F. Z. Fang, Z. J. Li. Generation of spherical NURBS curves and its application in 5-axis machining, Proceedings of the Institution of Mechanical Engineers, Part B, Journal of Engineering Manufacture, 229(7): 1104-1117, 2015.
  12. 12. Hu Gong, Yi Wang, Le Song*, F. Z. Fang. Spiral tool path generation for diamond turning optical freeform surfaces of quasi-revolution. Computer-Aided Design, 59: 15-22, 2015.
  13. 13. Feng-Zhou Fang, Kun-Tao Huang, Hu Gong* and Zhan-Jie Li. Study on the optical reflection characteristics of surface micro-morphology generated by ultra-precision diamond turning, Optics and Lasers in Engineering, 62:46-56,2014.
  14. 14. Hu Gong*, F. Z. Fang, X. F. Zhang, Juan Du, X. T. Hu. Study on the reduction strategy of machining-induced edge chipping based on FEA of in-process workpiece structure. Transactions of the ASME, Journal of Manufacturing Science and Engineering, 135(1): 011017, 2013.
  15. 15. Ramy Harik*, Hu Gong, Alain Bernard. 5-axis flank milling: A state-of-the-art review. Computer-Aided Design, 45(3): 796-808, 2013.
  16. 16. Chun-Yang Zhao, Hu Gong*, F. Z. Fang, Z. J. Li. Experimental study on the cutting force difference between rotary ultrasonic machining and conventional diamond grinding of K9 glass. Machining Science & Technology, 17(1):129-144, 2013.
  17. 17. Hu Gong*, F. Z. Fang, X.T. Hu. Accurate spiral tool path generation of ultraprecision three-axis turning for non-zero rake angle using symbolic computation. International Journal of Advanced Manufacturing Technology, 58(9):871-847, 2012.
  18. 18. Hu Gong*, Ning Wang. 5-axis flank milling free-form surfaces considering constraints. Computer-Aided Design, 43(6):563-572, 2011.
  19. 19. Hu Gong*, F. Z. Fang, X.T. Hu, Li-Xin Cao, Jian Liu. Optimize tool positions locally based on BCELTP for 5-axis machining free-form surfaces. Computer-Aided Design, 42 (6): 558-570, 2010.
  20. 20. Hu Gong, F. Z. Fang*, X. Hu. Kinematic view of tool life in rotary ultrasonic side milling of hard and brittle materials. International Journal of Machine Tools & Manufacture, 50(3):303-307, 2010.
  21. 21. Hu Gong*. Tool path generation based on BCELTP for maximizing machining strip width. Intelligent Robotics and Applications. Lecture Notes in Computer Science, 2010, Volume 6425/2010, 67-74.
  22. 22. Hu Gong*, Ning Wang. Optimize tool path of flank milling with generic cutter based on approximation using envelope surface. Computer-Aided Design, 41(12):981-989, 2009.
  23. 23. Hu Gong*, Ning Wang. Analytical calculation of envelope surface for generic milling tool directly from CL-data based on moving frame. Computer-Aided Design, 41(11):848-855, 2009.
  24. 24. Hu Gong*, Li-Xin Cao, Jian Liu. Second order approximation of tool envelope surface for 5-axis machining with single point contact. Computer-Aided Design, 40(5):604-615, 2008.
  25. 25. Li-Xin Cao*, Hu Gong, Jian Liu. The offset approach of machining free form surface: Part 2: Toroidal cutter in five-axis NC machine tools. Journal of Materials Processing Technology, 184(1-3):6-11, 2007.
  26. 26. Li-Xin Cao*, Hu Gong, Jian Liu. The offset approach of machining free form surface: Part 1: Cylindrical cutter in five-axis NC machine tools. Journal of Materials Processing Technology, 174(1-3): 298-304, 2006.
  27. 27. Hu Gong*, Li-Xin Cao, Jian Liu. Improved positioning of cylindrical cutter for flank milling ruled surfaces. Computer-Aided Design, 37(12):1205-1213, 2005.
  28. 28. 宫虎*,曹立新,刘健. 数控侧铣加工非可展直纹面的刀位整体优化原理与方法. 机械工程学报,41(11): 134-139, 2005.

软件著作权

  宫虎,黄昆涛,李振瀚,颜昌亚,汪九洲. 自由曲面三轴/四轴超精密车削刀具路径计算软件,2018。

产学研成果

  受国家自然科学基金以及部分企业项目的支持,自主开发的处于应用阶段的成果有:

  1. 1. U-CAM复杂曲面超精密刀具路径规划软件(用于光学复杂曲面的高效路径计算)
  2. 2. 超声波辅助超精密车削系统(用于模具钢材质光学模具的超精密加工)
  3. 3. 非接触式旋转超声加工系统(用于陶瓷、玻璃、碳纤维等先进材料的高效加工)
  4. 4. 光纤石英预制棒加工装备及工艺(用于预制棒精密深孔和异形预制棒的精密加工)

奖励、荣誉
  1. 1. “工业和制造工程”领域2014年中国高被引学者(ELSEVIER公司发布)
  2. 2. “工业和制造工程”领域2015年中国高被引学者(ELSEVIER公司发布)
  3. 3. “工业和制造工程”领域2016年中国高被引学者(ELSEVIER公司发布)
  4. 4. “工业和制造工程”领域2017年中国高被引学者(ELSEVIER公司发布)
  5. 5. “工业和制造工程”领域2018年中国高被引学者(ELSEVIER公司发布)

学术兼职
  1. 1. 担任十多家中英文制造类期刊以及会议的审稿人
  2. 2. 国家自然基金通讯评审专家
  3. 3. 中国超声加工技术委员会委员
  4. 4. Committee member: International Symposium of Computational NC Machining

 

科技链接

教学链接

校内链接

  • 国际交流