亚搏平台_亚搏网页版教授，洪堡学者，博导，长期从事多轴机器人辅助微波增材制造，功能复合材料设计制造以及相控阵聚焦超声神经刺激/体内3D打印研究，2022年入选国家海外青年人才引进计划。2018年至2022年在德国卡尔斯鲁厄理工学院(KIT)，脉冲波与微波技术研究所开展微波增材制造研究，作为PI主持德国科研项目2项，获批欧盟经费超过一百万欧元，获得KIT“NEULAND Innovation”创新一等奖，法国JEC国际复合材料大会2020年度创新提名奖，截止目前在SCI期刊和会议发表论文30余篇, 授权1项德国发明专利, 1项欧洲发明专利，1项PCT国际发明专利和26项中国发明专利, Google H因子19。国际生产工程院CIRP青年会员(RA)，2024-2025 届RA主席，CIRP RA 联合研究小组 “Robot-assisted Additive Manufacturing”负责人，第 13 届全球 CIRP Global Web Conference （CIRPe 2025）,“面向智能制造的人工智能”大会主席，江苏省研究型医院学会脑科学创新与转化专业委员会常委，Procedia CIRP 特邀主编，Additive manufacturing，Composite Part B，Composite Science and Technology, CIRP Journal of Manufacturing Science and Technology, Materials & Design等SCI期刊审稿人。受邀做5次大会主题报告及20余次邀请报告，出版Special Issue 3D Printing: Materials, Properties, and Applications；CIRP Novel Topics论著章节: “Achieving Predictive and Prescriptive Quality Control in Generative AI-enable Additive Manufacturing.

Google Scholar: https://scholar.google.com/citations?user=rV8q950AAAAJ&hl=en

团队主页: https://nanyalee.github.io/ 

 

主要研究方向：

• 多轴机器人辅助微波增材制造

以6自由度协作机器人，工业机械臂为制造载体的复杂曲面，拓扑几何连续碳纤维增强PEEK复材微波能场辅助增材制造。结合机器人的高自由度和微波瞬时，非接触加热的特点，实现高性能复材的快速制造及再制造。

• 功能复合材料设计制造

导电/导热/物质输运微管网络增强轻量化复合材料（细胞支架/医用智能植入体/人形机器人承力骨架，关节部件）3D打印轨迹设计和增材制造。

• 相控阵聚焦超声神经刺激/体内3D打印

联合大型医院开展经颅聚焦超声的高精度靶点选区和多点同步刺激，调控神经信号，研究超声脑机接口以及体内3D打印技术。

 

招生（26、27硕博空余紧缺）

团队国际合作交流频繁，与德国卡尔斯鲁厄理工学院，新加坡国立大学，南洋理工大学，意大利米兰理工大学，美国普渡大学，澳大利亚莫纳什大学等国外研究机构建立了持久稳固的合作关系。

鼓励自主探索，兴趣导向，瞄准高水平研究持续培养创新和解决问题的能力，形成具有行业竞争力和独立科研能力的人才。

团队氛围轻松活泼，学生自主调整科研时间及节奏，定期组织春秋游活动。

感兴趣学生可联系: nanya.li@seu.edu.cn (Email应包含: 个人简历; 成绩单; 1篇代表作全文(如有))

博士后 Post-doc：

团队长期招聘国内外博士后，欢迎感兴趣的优秀博士科研人员加入团队。

2011.09 - 2017.11  博 士    南京航空航天大学

2007.09 - 2011.06  学 士    南京航空航天大学

2025.11 - 至今        教授    东南大学

2023.01 - 2025.11  教授    南京航空航天大学

2020.10 - 2022.12  青年教授候选人(YIG Prep Pro Fellow) 德国卡尔斯鲁厄理工学院

2020.01 - 2020.09  研究员   德国卡尔斯鲁厄理工学院

2018.01- 2019.12   洪堡学者  德国卡尔斯鲁厄理工学院

微波增材制造；机器人多轴3D打印；功能复合材料设计制造；相控阵聚焦超声波

《Additive manufacturing》

《Composite Part B》

《Composite Science and Technology》

《CIRP Journal of Manufacturing Science and Technology》

《Materials & Design》

国际生产工程学院CIRP - 青年会员(RA)

江苏省研究型医院学会脑科学创新与转化专业委员会 -常委

Procedia CIRP - 特邀主编

• 2020 德国卡尔斯鲁厄理工学院 “NEULAND Innovation”创新一等奖

• 2020 法国JEC国际复合材料大会2020年度创新提名奖

• 2019 江苏省优秀博士学位论文

• 2017 德国亚历山大·冯·洪堡基金会洪堡学者基金

1. Zhang, Y., Li, N., 2025, Data-driven design for additive manufacturing of energy absorption lattice structures with variable density, Materials & Design, 256:114761.

2. Li, N., Sun, C., Zheng, H, Ong, S.K. 2025, Design optimization of graded cellular structures for additive manufacturing via differentiable Voronoi diagram, CIRP Annals.

3. Li, N., Sun, C., Lu, Y., Zhang, J., Li, J., 2025, FFF-based 3D printing path design of interconnected microchannel network inside continuous fibre-reinforced composites for thermal manipulation, Composite Part B, 298,112391.

4. Wang, T., Li, N., Yu, N., Mutilba, U., Flores, J., Wang Y., Bartolo, P., Ong, S.K., 2025, Robot-assisted additive manufacturing for aerospace applications: recent trends and its future possibilities, International Journal of Computer Integrated Manufacturing, 1-41.

5. Lu, J., Hong, R., Zhang, Y., Zhong, Y., Wengenmayer, L., Link, G., Li, J., Li, N., 2025, Continuous carbon fiber reinforced filaments manufactured by a cost-effective and two-step impregnation approach, Procedia CIRP, 132, 98-103.

6. Li, N., Link, G., Jelonnek, J. and Ong, S.K., 2023. Digital twins towards microwave-assisted 3D printing of continuous carbon fiber reinforced composites. Procedia CIRP, 119, pp.158-163.

7. Li, N., Link, G. and Jelonnek, J., 2022. Electroplating of 3D printed plastic component for the application of microwave filter. In 2022 IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications (IMWS-AMP) (pp. 1-3). IEEE.

8. Li, N., Link, G., Ma, J., Jelonnek, J., 2021, LiDAR based multi-robot cooperation for the 3D printing of continuous carbon fiber reinforced composite structures. Adv. Transdiscipl. Eng.. 2021,15:125-32.

9. Li, N., Link, G., Engler, M., Jelonnek, J., 2021, Small-size coaxial resonant applicator for microwave heating assisted additive manufacturing. IEEE Transactions on Microwave Theory and Techniques.

10. Li, N., Link, G., Jelonnek, J., Morais, M. V.C., Henning, F., 2021, Microwave additive manufacturing of continuous carbon fibers reinforced thermoplastic composites: Characterization, analysis, and properties. Additive Manufacturing.

11. Wang, T., Li, N., Link, G., Jelonnek, J., Fleischer, J., Dittus, J., Kupzik, D., 2020, Load-dependent path planning method for 3D printing of continuous fiber reinforced plastics. Composites Part A: Applied Science and Manufacturing.

12. Li, N., Link, G., Jelonnek, J., Heinzel, A., 2020, Production of continuous carbon fiber reinforced polyamide filaments for microwave additive manufacturing, SAMPE Europe Amsterdam Conference 2020, August, Amsterdam.

13. Li, N., Link, G., Jelonnek, J., 2020, Rapid 3D microwave printing of continuous carbon fiber reinforced plastics. CIRP Annals 69:221-224.

14. Li, N., Link, G., Jelonnek, J., 2019, 3D microwave printing temperature control method of continuous carbon fiber reinforced composites, Composite Science and Technology.

15. Li, N., Link, G., Ting, W., Ramopoulos, V., Neumaier, D., Hofele J., Walter, M., Jelonnek, J., 2019, Path-designed 3D printing for topological optimized continuous carbon fibre composite structures, Composite Part B: Engineering.

16. Li, N., Li, Y., Jelonnek, J., Link, G., Gao, J., 2017, A new process control method for microwave curing of carbon fibre reinforced composites in aerospace applications, Composites Part B: Engineering, 122:61-70.

17. Li, N., Li, Y., Jelonnek, J., Link, G., Gao, J., 2017, A new process control method for microwave curing of carbon fibre reinforced composites in aerospace applications, Composites Part B: Engineering, 122:61-70.

18. Li, N., Li, Y., Wu, X., 2017, Tool-part interaction in composites microwave curing: experimental investigation and analysis, Journal of Composite Materials, 51(26):3719-3730.

19. Li, N., Li, Y., Liu, S., 2016, Rapid prototyping of continuous carbon fiber reinforced polylactic acid composites by 3D printing, Journal of Materials Processing Technology, 238:218-225.

20. Li, N., Li, Y., Zhang, L., Hao, X., 2016, Kinetics modeling of carbon-fiber- reinforced bismaleimide composites under microwave and thermal curing, Journal of Applied Polymer Science, 133(33):1-8.

21. Li, N., Li, Y., Hao, X., Gao, J., 2015, A comparative experiment for the analysis of microwave and thermal process induced strains of carbon fiber/bismaleimide composite materials, Composites Science and Technology, 106:15-19.

22. Li, N., Li, Y., Zhou, J., He, Y., Hao, X., 2015, Drilling delamination and thermal damage of carbon nanotube/carbon fiber reinforced epoxy composites processed by microwave curing, International Journal of Machine Tools and Manufacture, 97:11-17.

23. Li, N., Li, Y., Hang, X., Gao, J., 2014, Analysis and optimization of temperature distribution in carbon fiber reinforced composite materials during microwave curing process, Journal of Materials Processing Technology, 214(3):544-550.

24. Li Y., Li, N., Zhou J., Cheng Q., 2019, Microwave Curing of Multidirectional Carbon Fiber Reinforced Polymer Composites, Composite Structures, 212:83-93.

25. Liu, S., Li, Y., Li, N., 2018, A novel free-hanging 3D printing method for continuous carbon fiber reinforced thermoplastic lattice truss core structures, Materials and Design, 137: 235-244.

26. Zhou, J., Li, Y., Li, N., Liu, S., Cheng, L., Sui, S., Gao, J., 2018, A multi-pattern compensation method to ensure even temperature in composite materials during microwave curing process, Composites Part A: Applied Science and Manufacturing, 107:10-20.

27. He, Y., Li, Y., Li, N., Hao, X., 2018, Online monitoring method of degree of cure during non-isothermal microwave curing process, Materials Research Express, 5(2):25-30.

28. He, Y., Li, Y., Li, N., 2017, Temperature-independent evanescent wave sensor made of a stress-released silica optical fiber taper, Optical Fiber Technology, 36:237-244.

29. Lu, Y., Li, Y., Li, N., Wu, X., 2017, Reduction of composite deformation based on tool-part thermal expansion matching and stress-free temperature theory, The International Journal of Advanced Manufacturing Technology, 88(5-8):1703-1710.

30. Zhou, J., Li, Y., Li, N., Hao, X., 2017, Enhanced interlaminar fracture toughness of carbon fiber/bismaleimide composites via microwave curing, Journal of Composite Materials, 51(18):2585-2595.

31. Wu, X., Li, Y., Li, N., Zhou, J., Hao, X., 2017, Analysis of the effect and mechanism of microwave curing on the chemical shrinkage of epoxy resins, High Performance Polymers, 29(10):1165-1174.

32. Hang, X., Li, Y., Hao, X., Li, N., 2017, Effects of temperature profiles of microwave curing processes on mechanical properties of carbon fibre reinforced composites, Journal of Engineering Manufacture, 231(8):1332-1340.

33. Zhou, J., Li, Y., Hao, X., Li, N., 2017, High-Pressure Microwave Curing Technology for Advanced Polymer Matrix Composite Materials, Proceedings of the 15th International Conference on Manufacturing Research, University of Greenwich, UK, 6:57-62.

34. Zhou, J., Li, Y., Li, N., Hao, X., Liu, C., 2016, Interfacial shear strength of microwave processed carbon fiber/epoxy composites characterized by an improved fiber-bundle pull-out test, Composites Science and Technology, 133:173-183.

35. Li, Y., Hang, X., Li, N., Hao, X., 2016, A temperature distribution prediction model of carbon fiber reinforced composites during microwave cure, Journal of Materials Processing Technology, 230:280-287.

36. Li Y., Li, N., Gao, J., 2014, Tooling design and microwave curing technologies for the manufacturing of fiber-reinforced polymer composites in aerospace applications. The International Journal of Advanced Manufacturing Technology, 70(1-4):591-606. 

国家海外高层次青年人才项目，国家自然科学基金。

1. Li, N., Link, G., Jelonnek, J., 2019, Additiver Herstellungsprozess Einer Form unter Verwendung von Mikrowellenstrahlung, Mikrowellendruckvorrichtung und additive Druckvorrichtung für 3D-Druck Eines Einen Faserverbundwerkstoff Umfassenden Filamnets (Patent No.: DE102019001976A1)

2. Li, N., Link, G., Jelonnek, J., 2019, Additive manufacturing process of a mould using microwave radiation, microwave printing device and additive printing device for 3d printing of a filament comprising a fibre composite material (Patent No.: WO2020188075).

3. Li, N., Link, G., Jelonnek, J., 2019, Process for the additive manufacture of a form using microwave radiation, microwave printing device and additive printing device of a 3D printing of a filament comprising a fiber composite material (Patent No.: EP3941713B1).

4. Li, Y., Li, N., Liu, S., 2016, A 3D printing method of continuous fiber reinforced thermoplastic polymer composite (Patent No.: 201610683124.3).

5. Li, Y., Li, N., Chen,Y., Wu, X., 2014, Uniform electromagnetic field distribution method for the microwave curing of composites (Patent No.: 201410780209.4).

6. Li, Y., Li, N., Hang, X., Zhou, J., Wu, X, 2014, Uniform temperature distribution method and equipment for the microwave-pressure curing of composite (Patent No.: 201410295387.8).

7. Li, Y., Li, N., Zhou, J., Hang, X., Wu, X., 2014, Microwave curing method and apparatus for composite transmission shaft (Patent No.: 201410295222.0).

8. Li, Y., Li, N., Zhou, J., 2014, Microwave curing of silicon carbide reinforced metal matrix composite (Patent No.: 201410780100.0).

9. Li, Y., Li, N., Hang, X., Zhou, J., Wu, X., 2014, Elimination arcing of carbon fiber reinforced composite in microwave environment (Patent No.: 201410298188.2).

10. Li, Y., Li, N., Cheng, Y., Zhou, J., 2014, Double vacuum bag assisted microwave curing technology (Patent No.: 201410780005.0).

11. Li, Y., Li, N., He, Y., 2014, A real-time monitoring method of heat flux during microwave curing of composite materials (Patent No.: 201410790900.0).

12. Li, Y., Li, N., 2013, Method and apparatus of microwave-pressure curing high performance composite (Patent No.: 201310480701.5).

13. Li, Y., Li, N., Yuan, L., Jiang, Y., Zeng, X., Dong, Z., Wang, J., 2013, Microwave curing method and apparatus for fiber reinforced polymer composite (Patent No.: 201310480686.4).

14. Li, Y., Li, N., 2013, Manufacturing method for carbon fiber/carbon nanotube reinforced composite (Patent No.: 201310480711.9).

15. Li, Y., Li, N., Hang, X., 2013, Method and apparatus for curing fiber reinforced polymer composite (Patent No.: 201310006755.8).

16. Li, Y., Li, N., 2013, Manufacturing of carbon nanotube resin film (Patent No.: 201310214228.6).

17. Li, Y., Li, N., Hao, X., Hang, X., 2012, Microwave curing of composite material (Patent No.: 201210167316.0).

18. Li, Y., Li, N., Hang, X., Fu, C., 2012, Ultrasonic assisted microwave curing method and apparatus for fiber reinforced composite (Patent No.: 201210471213.3).

19. Li, Y., Li, N., Hang, X, 2011, Compaction and clipping apparatus for fiber reinforced composite prepreg (Patent No.: 201110451953).

20. Li, Y., Zhang, J., Li, N., Hang, X., Wan, S., 2011, Composite tooling design method for autoclave curing based on finite element analysis (Patent No.: 201110451986.0).

21. Li, Y., Fu, C., Zhang, J., Li, N., Hang, X., 2011, Temperature distribution compensation method of composite parts during autoclave curing (Patent No.: 201110317701.4).

22. Li, Y., Li, N., Zhou, J., 2017, A design method of microwave resonator to improve the uniformity of electromagnetic field distribution (Patent No.: 201710228622.3).

23. Li, Y., Li, N., 2016, A microwave resonant apparatus for microwave curing of composite (Patent No.: 201610126500.9).

24. Li, Y., Li, N., 2016, Nondestructive monitoring, real-time measuring and quick repairing of composites by microwave (Patent No.: 201610118271.6).

25. Li, Y., Li, N., 2016, Microwave antenna array for composite microwave curing (Patent No.: 201610126499.X).

26. Li, Y., Li, N., Zhou, J., 2016, Method and apparatus for directional microwave heating of composites (Patent No.: 201610118272.0).

27. Li, Y., Li, N., 2016, Measurement of composite cure-induced tool-part interaction (Patent No.: 201610128916.4).

28. Li, Y., Li, N., Zhou, J., 2016, A testing method of interface strength of microwave cured carbon fiber reinforced polymer composite (Patent No.: 201610170266.X).

29. Li, Y., Li, N., Hao, X., 2015, Temperature distribution prediction method of composites during microwave curing (Patent No.: 201510119075.6).