1. （1）超声加工系统设计、工艺机理与工程应用
2. （2）精密与超精密多轴加工运动几何学原理及应用
3. （3）机器人集成制造系统与加工过程智能化实现
4. （4）基于AR/VR的人机交互技术在先进制造中的应用

　　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。

近5年代表性论文

1. 1. Shu-Yu Gui, Khoi Do, Yi-Jia Sun, Yao Yao, Fang-Jie Liao, Kai-Feng Lin, Hu Gong*, Yi Wang*. Ultrasonic assisted 3D printing (UA3DP) based on screw material extrusion, Virtual and Physical Prototyping, 2026.
2. 2. Feng Wang, Guanwei Chi, Hu Gong*. Research on mechanism and process of rotary ultrasonic grinding for thin-walled SiC substrate. Journal of Manufacturing Processes, 2025,154:577-596.
3. 3. Yong-Sheng Dong, Sheng-Jun Ao, Hu Gong*. Adaptive robotic polishing based on distributed flexible sensors. Robotics & Computer-Integrated Manufacturing, 2025,95:103020.
4. 4. Sheng-Jun Ao, Yi-Jia Sun, Song-Mei Yuan, Xu-Hui Liu, Chun-Yang Zhao, Hu Gong*. An ultrasonic pressure field measurement system for ultrasonic-assisted machining based on 6-axis industrial robot. Measurement Science and Technology, 2024, 35(12):126209.
5. 5. Sheng-Jun Ao，Hu Gong*，Hao Ni, ShuYu Gui, Chong Feng, Yi Wang. Design of ultrasonic-assisted EDM system for drilling small holes based on local resonance principle. International Journal of Advanced Manufacturing Technology, 2024,134(9-10:4821-4838.
6. 6. Shuaijun Zhu, Yijia Sun, Feng Wang, Hu Gong*. Investigation on the surface integrity of 40Cr steel machined by rotary ultrasonic flank milling. Micromachines.2024, 15(2):189.
7. 7. Yi-Jia Sun, Hu Gong*, Sheng-Jun Ao, Yi Wang, Song-Mei Yuan, Ming-Jie Ding, Tong Guo. In situ characterization method for tool ultrasonic vibration in rotary ultrasonic machining based on radiated acoustic pressure, Mechanical Systems and Signal Processing, 2023, 195: 110294.
8. 8. Yi-Jia Sun, Hu Gong*, Shu-Yu Gui, Song-Mei Yuan, Yi Wang. Towards understanding the cutting temperature in ultrasonic vibration-assisted drilling based on the dynamic contact characteristics between the cutting edge and workpiece, Ultrasonics, 2023, 135: 107131.
9. 9. Yi-Jia, Zhen Chen, Sheng-Jun Ao, Hu Gong*, Shu-Yu Gui. Investigation on the electrical characteristics of ultrasonic vibration unit in rotary ultrasonic machining. International Journal of Advanced Manufacturing Technology,2023, 125(7-8):3691-3700.
10. 10. Shu-Yu, Hu Gong*, Yi-Jia Sun, Chong Feng. Experimental investigation of the EDM tools coated with nano-alumina film. Surface Engineering, 2023,39(4):506-513.
11. 11. Yi-Jia Sun, Ming-Jie Ding, Hu Gong*, Yi Wang, Qi-Yong Zeng, Tong Guo. Kinematic analysis of the dynamic contact in ultrasonic-assisted cutting based on the moving frame method, Journal of Materials Processing Technology, 2022, 309: 117756-117756.
12. 12. Shengjun Ao, Hu Gong* Kuntao Huang. A smooth tool path generation method for ultraprecision turning discontinuous multi-freeform-surfaces with high machining efficiency, Journal of Materials Processing Technology, 2021, 298(1)
13. 13. Yi-Jia Sun, Hu Gong*, Yi Wang, Hao Ni. Tribological viewpoint of the cutting force in rotary ultrasonic vibration-assisted side milling (RUVSM), The International Journal of Advanced Manufacturing Technology, 2021, 114(1): 2839-2848.

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）

1. “工业和制造工程”领域2014~2018年中国高被引学者（ELSEVIER公司发布）

1. 1. Committee member: International Symposium of Computational NC Machining
2. 2. 中国超声加工技术委员会委员
3. 3. 全国高校互换性与测量技术基础研究会副秘书长