研究方向:智能装备设计及先进制造技术、功能结构制造
办公邮箱:hejunfeng@gpnu.edu.cn
个人简介:
何俊峰,工学博士,广东技术师范大学机电学院副教授,硕士生导师,日本精密工学会会员,中国机械工程学会会员,主要从事智能装备设计及金属表面功能结构制造领域的研究工作。主持和参与国家级、省部级项目12项,在国内外权威期刊发表学术论文40余篇,并获国际发明专利4项,国内发明专利20余项,实用新型专利10余项。
教育背景:广东工业大学博士学位,东京农工大学博士联合培养。
主讲课程:机器视觉与深度学习、机电装备软件系统设计、工程力学等。
代表性科研项目:
1. 国家科技部-中日科技交流项目,SSP20240509994,環境対応型生産加工技術の研修を通じた日中両国の若い研究者の活躍促進,2024.07-2025.03,16.5万,主持。
2. 广东省自然科学基金-基础与应用基础研究项目,2022A1515110691,基于电泳特性的软磨头辅助超声铣抛一体成型加工技术研究,2022/10-2025/09,10万,主持。
3. 广东省科技厅-海外名师项目,基于特种能场的精密微纳制造技术研究,2022/06-2023/12,5万,主持。
4. 广州市科技计划-基础与应用基础研究项目,202201011219,基于大数据驱动的电泳辅助超声微铣削智能制造技术基础研究,2022/04-2024/03,5万,主持。
5. 广东技术师范大学-科研启动项目,2021SDKYA030,微细深窄槽结构电泳辅助超声铣削加工技术研究,2020/10-2024/10,35万,主持。
代表性论文:
1. Huazhuo Liang, Wenjie Chen, Youzhi Fu, Yue Jian, Wenjie Zhou, Dawei Liu,Junfeng He*(通讯作者), Surface Oxidation Properties of GaN wafers in Chemical Magnetorheological Polishing Process by Ultrasonic Action, Precision Engineering, 2025,
2. Junfeng He; Zan Wang; Junjie Wang; Huazhuo Liang; Haishan Lian. Investigation of the microhole arrays generated by masked jet electrochemical machining with polyaluminum chloride electrolyte. Precision Engineering. 82(2023),370-382.
3. Junfeng He,Junjie Wang, Huazhuo Liang, Li Zhou, Yue Jian, Wenjie Zhou.Experimental study on the evolution process of Zr702 microdimple array generated with masked jet electrochemical machining. The International Journal of Advanced Manufacturing Technology. 2023:124, 937-987.
4. Junfeng He,Zhongning Guo, Haishan Lian, Junjie Wang, Xiaolei Chen*, Jiangwen Liu.Improving the Machining Quality of Micro Structures by Using Electrophoresis-Assisted Ultrasonic Micromilling Machining. Int. J. of Precis. Eng. and Manuf.-Green Tech. 7(2020) 151-161.
5. J.F. He, Z.N. Guo, H.S. Lian, J.W. Liu, Z. Yao, Y. Deng*. Experiments and simulations of micro-hole manufacturing by electrophoresis-assisted micro-ultrasonic machining, Journal of Materials Processing Technology, 264 (2019) 10-20.
6. Junfeng He, Ming Wu, Ruilin Zhang, Jiangwen Liu, Yu Deng, Zhongning, Guo*. A one-step hot-embossing process for fabricating a channel with superhydrophobic inner walls. Journal of Manufacturing Processes. 36 (2018) 351-359.
7. Junfeng He,Zhongning Guo, Haishan Lian, Junjie Wang, Jiangwen Liu*, Xiaolei Chen.Study on manufacturing quality of micro-ultrasonic machining with force control. Int J Adv Manuf Tech. 105(2019)3137-3146.
8. Xiaolei Chen, Li Liu,Junfeng He*(通讯作者), Fei Zuo, Zhongning Guo. Fabrication of a Metal Micro Mold by Using Pulse Micro Electroforming, Micromachines, 2018,9(5):203-215.
9. He, J.; Chen, W.; Wang, J.; Wu, M.; Zhou, L.; Chen, R.; Liang, H. Exploring Electrochemical Direct Writing Machining of Patterned Microstructures on Zr702 with Polyacrylamide Polymer Electrolyte. Micromachines 2024, 15, 1074.
10. He J,Wang Z, Zhou W, Jian Y, Zhou L. Electrolytic Characteristics of Microhole Array Manufacturing Using Polyacrylamide Electrolyte in 304 Stainless Steel. Micromachines. 2023; 14(10):1808.
11. Jiangwen Liu, Qinming Huang, Ming Wu, Zhixiang Zou, Zhibiao Lin, Zhongning Guo,Junfeng He*(通讯作者), Xiaolei Chen*. Electrochemical Discharge Grinding of Metal Matrix Composites Using Shaped Abrasive Tools Formed by Sintered Bronze/diamond.Science and Engineering of Composite Materials, 2020, 27(1):346-358.
12. Liang, H.; Chen, W.; Fu, Y.; Zhou, W.; Mo, L.; Jian, Y.; Wen, Q.; Liu, D.;He, J*(通讯作者).Back Propagation Neural Network-Based Predictive Model for Magnetorheological–Chemical Polishing of Silicon Carbide. Micromachines 2025, 16, 271.
13. Yan Qin,Junfeng He*(通讯作者), Fenghuai Yang, Zheng Zhang, Zhishan Yuan, Ming Wu. Extraordinary Optical Transmission Properties of a Novel Bi-Layered Plasmonic Nanostructure Array, Optik, 174(2018) 684-691.
主要授权发明专利:
1. Electrophoresis-assisted laser strengthening method and device for steel saw surface,NL2032954,荷兰,发明专利,2023.11.11
2. Electrophoresis Auxiliary Self-Feeding Ultraprecision Micro-Polishing Method and Device Therefor,NP-FIL-CONF-LU503967,卢森堡,发明专利,2024.10.18
3. Direct-Writing Electrochemical Micromachining Method and Device. NP-FIL-CONF-LU503965,卢森堡,发明专利,2024.10.21
4. Local strengthening device and method for multi-metal Fused band saw blade. NP-FIL-CONF-LU503962,卢森堡,发明专利,2024.10.21
5. 一种电泳辅助自进给式超精密微量抛光方法及装置,ZL2022111582392,发明专利,2023.8.15
6. 一种场域集中的直写式微细电解加工方法及装置,ZL 2022100194571,发明专利,2023.8.18
7. 一种多金属熔融带状锯条局部强化装置及方法,ZL 2022100193422,发明专利2023.6.23
8. 一种电泳辅助激光钢锯表面强化方法及装置,ZL 2022100193441,发明专利2023.5.30
9. 一种电泳辅助微纳颗粒熔融自组装表面改性设备,ZL201710277890.4,发明专利
10. 一种金属表面改性装置,ZL 201710277868.X,发明专利
11. 一种工件局部表面改性的制备装置,ZL201710277889.1,发明专利
12. 一种微流控芯片弹性模具局部强化成型装置及方法,ZL 201710287154.7,发明专利
13. 一种微纳嵌套颗粒熔融自结合表面改性设备,ZL201710277294.6,发明专利
14. 一种非接触式电驱动模塑成形装置及设备,ZL 201711328163.2,发明专利
15. 一种用于对齿圈的内齿进行研磨的研磨装置以及研磨方法,ZL 2022 1 0626103.3,发明专利
16. 一种电泳辅助超声机械复合微细钻削加工装置,ZL201410135249.3,发明专利,
17. 一种电泳辅助微细超声或微细旋转超声抛光微孔的装置及加工方法,ZL201310556649.7,发明专利
其他成果:
教育部学位评审专家,CNKI专家库专家,多个SCI期刊审稿专家,指导学生获得学术之星、学业奖学金等奖项。
