2011.09–2018.06, Shanghai Jiao Tong University, Mechanical Engineering, Ph.D.
2016.08–2017.08, University of British Columbia, Vancouver, Mechanical Engineering, Joint Ph.D.
2007.09–2011.07, Dalian University of Technology, Mechanical Engineering, Bachelor

2021.08–Present, Shanghai Jiao Tong University, Associate Professor
2019.06–2020.10, Technical University of Berlin, Humboldt research fellow
2018.10–2019.05, University of Huddersfield, Visiting scholar
2018.06–2021.08, Shanghai Jiao Tong University, Postdoctor

* Ultra-precision polishing
* Digital intelligent manufacturing

We welcome master's students, doctoral students, and post-doctoral students with backgrounds in mechanics, mechanics, physics, and materials to join us for academic research. Outstanding students can be recommended to pursue further studies in prestigious overseas universities!

2020.01–2022.12，Dynamic performance improvement and deformation compensation for robot milling of large thin-walled parts，National Natural Science Foundation of China (51905345)，PI
2018.10–2020.10，Research on robot processing technology for large complex thin-walled parts, Postdoctoral International Exchange Project, PI
2020.03–2022.02，Open Research Fundation of State Key Laboratory of High Performance Complex Manufacturing, Central South University, PI
2020.01–2021.12，Open Research Foundation of State Key Laboratory of Digital Manufacturing and Equipment Technology, HUST.，PI
2014.01–2017.12，Digital manufacturing of complex shaped mechanical parts, supported by the National Natural Science Foundation for Distinguished Young Scholars (51325502), Key Technical Member

[1] 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.
[2] 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.
[3] 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.
[4] 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.
[5] 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.
[6] 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.
[7] 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.
[8] 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.
[9] 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.
[10] 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.
[11] 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.
[12] 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.
[13] 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.
[14] 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.

2019 Hiwin award for outstanding doctoral dissertation in mechanical engineering
2019 Humboldt Research Fellowship for Postdoctoral Researchers
2018 Outstanding doctoral dissertation award of Shanghai Jiao Tong University
2018 Outstanding graduate award of Shanghai