2011.09–2018.06，上海交通大学，机械工程，硕博连读
2016.08–2017.08，英属哥伦比亚大学，机械制造，联合培养博士
2007.09–2011.07，大连理工大学，机械制造及其自动化，学士

2021.08–至今，上海交通大学，suncitygroup太阳集团，长聘教轨副教授
2019.06–2020.10，柏林工业大学，机床管理学院，洪堡学者/博士后
2018.10–2019.05，哈德斯菲尔德大学，精密技术中心，访问学者
2018.06–2021.08，上海交通大学，suncitygroup太阳集团，博士后

（1）数字化智能化制造

*机器人智能制造技术与装备

*基于深度学习的智能加工技术

（2） 原子级表面制造

*机器人力控抛光装备与技术

*大气等离子体抛光技术

*等离子体辅助CMP抛光技术

欢迎机械、力学、物理、材料等学科背景的硕士生、博士生和博士后加盟从事学术研究，优秀同学可推荐到海外名校继续深造！（2024年还有硕士名额）

中国图学学会智能工厂专委会委员；

纳米制造与计量期刊青年编委；
IEEE Transactions on Automation Science and Engineering、Mechanism and Machine Theory、Chinese Journal of Aeronautics、Journal of Engineering Manufacture、International Journal of Advanced Manufacturing Technology、International Journal of Computer Integrated Manufacturing等期刊审稿人

2023.01-2026.12，国家自然科学基金联合基金重点项目“航空发动机复杂曲面薄壁件高效自适应加工理论与关键技术研究”，交大方负责人
2023.01-2026.12，国家自然科学基金面上项目“大口径曲面光学元件的大气等离子体宽行抛光技术研究”，负责人
2022.04-2024.03，国防科技166项目“****的原子级表面加工技术研究”，负责人
2021.10-2023.09，上海市浦江人才计划项目“大型蒙皮机器人加工的随动支撑设计与误差补偿技术研究”，负责人
2020.01–2022.12，国家自然科学基金青年项目“大型薄壁零件机器人铣削的动态性能优化与加工变形补偿技术”，负责人
2018.10–2020.10，博士后国际交流计划派出项目“大型复杂薄壁零件机器人加工技术研究”，负责人
2020.03–2022.02，中南大学高性能复杂制造国家重点实验室开放课题，负责人
2020.01–2021.12，华中科技大学数字制造装备与技术国家重点实验室开放课题，负责人
2014.01–2017.12，国家杰出青年基金项目“数字化制造与数控加工技术”，主要完成人

[1]     Fan Z, Li ZL*, Wang R, Yu N, Ren MJ, Zhang XQ, Zhu LM. A novel and efficient multi-jet plasma polishing process for optical fabrication. Journal of Materials Processing Technology, 2025, 337: 118735.

[2]     石龙，周鹤翔，李洲龙*．基于模糊线性自抗扰的薄壁件机器人铣削切深控制．中国机械工程，2025

[3]     Zhou HX, Li ZL*, Pan LY, Tian JJ, Zhu LM. Online Chatter Detection via Lightweight Deep Learning Framework with Efficient Signal Pre-processing. Mechanical Systems and Signal Processing, 2025, 223: 111882

[4]     Wang R, Li ZL*, Fan Z, Zhang XQ, Ren MJ, Zhu LM. Surrogate-model-based dwell time optimization for atmospheric pressure plasma jet finishing. International Journal of Mechanical Sciences, 2024, 281: 109547

[5]     Wang R, Fan Z, Yu N, Zhu ZW, Ren MJ, Zhang XQ, Li ZL*, Zhu LM. Optimization and test of a ring-ring typed atmospheric pressure plasma jet for optical fabrication[J]. Precision Engineering, 2024, 88: 718-728.

[6]     Li K, Li ZL, Jia X, et al. A domain adversarial graph convolutional network for intelligent monitoring of tool wear in machine tools[J]. Computers & Industrial Engineering, 2024, 187: 109795.

[7]     李洲龙，王锐，范哲，朱利民*. 大气等离子体射流加工的热误差在线补偿方法[J]. 机械工程学报, 2023, 59(21): 75-84.

[8]     Li ZL, Wang R, Zhang XQ, Ren MJ, Zhu LM*. B-spline surface approximation method for achieving optimum dwell time in deterministic polishing[J]. Journal of Materials Processing Technology, 2023: 118031.

[9]     Wang R, Li ZL*, Ren MJ, Zhu LM. A registration-based stitching method for obtaining high-accuracy material removal distribution in the sub-aperture polishing process[J]. Precision Engineering, 2022, 77: 251–262.

[10]  Huang WW, Li LL, Li ZL*, Zhu ZW, Zhu LM*. Robust high-bandwidth control of nano- positioning stages with Kalman filter based extended state observer and H ∞ control. The Review of scientific instruments, 2021, 92(6):065003.

[11]  Xiong G, Li ZL, Ding Y, Zhu LM*. A closed-loop error compensation method for robotic flank milling. Robotics and Computer-Integrated Manufacturing, 2020, 63: 101928.

[12]  Chen ZZ, Li ZL, Niu JB, Zhu LM*. Chatter detection in milling processes using frequency-domain Rényi entropy. International Journal of Advanced Manufacturing Technology, 2020, 106: 877–90.

[13]  Xiong G, Li ZL, Ding Y, Zhu LM*. Integration of optimized feedrate into an online adaptive force controller for robot milling. International Journal of Advanced Manufacturing Technology, 2020, 106: 1533-1542.

[14]  Li ZL, Zhu LM*. Compensation of deformation errors in five-axis flank milling of thin-walled parts via tool path optimization. Precision Engineering, 2019, 55: 77-87.

[15]  Wang XZ, Li ZL, Bi QZ, Ding H, Zhu LM*. An accelerated convergence approach for real-time deformation compensation in large thin-walled parts machining. International Journal of Machine Tools and Manufacture, 2019, 142: 98-106.

[16]  Li ZL, Tuysuz O, Zhu LM, Altintas Y*. Surface form error prediction in five-axis flank milling of thin-walled parts. International Journal of Machine Tools and Manufacture, 2018, 128: 21-32.

[17]  Altintas Y*, Tuysuz O, Habibi M, Li ZL. Virtual compensation of deflection errors in ball end milling of flexible blades. CIRP Annals Manufacturing Technology, 2018, 67(1): 365-368.

[18]  Li ZL, Zhu LM*. An Accurate method for determining cutter-workpiece engagements in five-axis milling with a general tool considering cutter runout. Trans. of the ASME, Journal of Manufacturing Science and Engineering, 2018, 140(2): 021001.

[19]  Li ZL, Ding Y, Zhu LM*. Accurate Cutting force prediction of helical milling operations considering the cutter runout effect. International Journal of Advanced Manufacturing Technology, 2018, 92(9-12): 4133-4144.

[20]  Li ZL, Zhu LM*. Mechanistic Modeling of five-axis machining with a flat end mill considering bottom edge cutting effect. Trans. of the ASME, Journal of Manufacturing Science and Engineering, 2016, 138(11): 111012.

[21]  Li ZL, Niu JB, Wang XZ, Zhu LM*. Mechanistic modeling of five-axis machining with a general end mill considering cutter runout. International Journal of Machine Tools and Manufacture, 2015, 96: 67-79.

[22]  Li ZL, Zhu LM*. Arc-surface intersection method to calculate cutter-workpiece engagements for generic cutter in five-axis milling. Computer-Aided Design, 2015, 73: 1-10.

[23]  Li ZL, Zhu LM*. Envelope Surface modeling and tool path optimization for five-axis flank milling considering cutter runout. Trans. of the ASME, Journal of Manufacturing Science and Engineering, 2014, 136(4): 041021. 

[1]     李洲龙,王锐,范哲,朱利民. 大气等离子体射流加工的热误差在线补偿方法及系统. 发明专利，申请号：CN202310382831.9，申请日期：2023.07.24

[2]     李洲龙,王锐,张鑫泉,任明俊,朱利民. NURBS曲面光顺调控的自由曲面抛光驻留时间计算方法及系统. 发明专利，申请号：CN202310916975.8，申请日期：2023.04.11

[3]     李洲龙,谭淩文,王锐,槐艳艳,朱利民.具有区域适应性的光顺抛光路径规划方法及系统. 发明专利，申请号：CN202211624648.7, 申请日期：2023-04-11.

[4]     李洲龙，梁锐彬，朱利民；多通道电容耦合式等离子体射流装置及工作方法；申请号：2021109768685；授权日期：2022.06.28；授权号：CN113597078B

[5]     朱利民，李洲龙；平底刀五轴加工铣削力精确预报方法；申请号：201510875933.X；授权日期：2018.11.16；授权号：CN105488284B

[6]     朱利民，李洲龙，牛金波，王信智；五轴数控侧铣加工铣削力预报方法；申请号：201410145849.8；授权日期：2017.01.18；授权号：CN103955169B

[7]     李洲龙，丁烨，朱利民；螺旋铣孔过程中切削力预报和稳定性判别方法；申请号：201510875935.9，授权日期：2017.09.15；授权号：CN105414616B

[8]     李洲龙，王续跃，王东魏，高航，刘巍；一种接触式大直径现场测量装置及方法；申请号：201110075754.X；授权日期：2012.07.04；授权号：CN102155907B

[9]     李洲龙，王续跃，王东魏，高航，刘巍；一种基准尺法大直径测量π尺装置及测量方法；申请号：201010522099.3；授权日期：2013.04.17；授权号：CN102042790B