Ph.D. 01/2015-05/2019 Mechanical Engineering, National University of Singapore (NUS)
B.Eng. 09/2010-06/2014 Precision Machinery and Precision Instrumentation, University of Science and Technology of China (USTC)

Associate Professor 02/2022-present School of Mechanical Engineering & Meta Robotics Institute, Shanghai Jiao Tong University
Postdoc Fellow 11/2020-09/2022, Dept. of Mechanical and Aerospace Engineering, Hong Kong University of Science and Technology
Scientist 04/2019-11/2020 Scientist, Singapore Institute of Manufacturing Technology (SIMTech), Agency for Science, Technology and Research (A*STAR)

Design and additive manufacturing (AM) of lightweight and high-performance lattice structures through multidisciplinary knowledge, including solid mechanics, structural optimization, differential geometry, and material science.

Fundamental Research:
• Design and optimization of lattice structures: Shape and topology optimization, Hierarchical and graded lattice structures
• Design for AM: Characterization and modelling of AM defects of lattice structures, Geometry compensation design
• AM and post-processing: Micro selective laser melting, Laser path planning, Precision electrochemical polishing

Application:
• Lightweight, high-strength, and impact-resistant aerospace components
• Biomimetic bone scaffolds

Students interested in structural optimization and additive manufacturing are welcome.

1. Research Grants Council (HKSAR), General Research Fund "Open-Cell Plate-Lattice Mechanical Metamaterials Made with Additive Manufacturing Techniques"，2021-2024, member
2. Innovation and Technology Commission (HKSAR), The Innovation and Technology Fund "Development of Ultra-Light and High-Strength Shellular Materials: Design and Additive Manufacturing"，2020-2021, member
3. Science and Engineering Research Council of Singapore "Design, Modelling and Simulation of 3D Additive Manufacturing Components" 2015-2020, member

Highly Cited Journal Publications (#Authors contributing equally *Corresponding author)
1. Zhang, L., Feih, S., Daynes, S., Chang, S., Wang, M.Y., Wei, J., Lu, W.F.* (2018). Energy absorption characteristics of metallic triply periodic minimal surface sheet structures under compressive loading. Additive Manufacturing, 23, 505-515. (ESI highly cited papers, ESI research front, highly cited papers in Additive Manufacturing journal)
2. Wang, Y., Zhang, L., Daynes, S., Zhang, H., Feih, S., Wang, M.Y.* (2018). Design of graded lattice structure with optimized mesostructures for additive manufacturing. Materials & Design, 142, 114-123. (Highly cited papers in Materials & Design journal)

Other Journal Publications
[2023]
3. Cang, M.#, Zhang, L.#, Wang, Y*, Fu, J., Luo, Z., Kang, Z., Fu, M.W., Wang, M.Y. (2023) An efficient method for design of lattice core sandwich structures with superior buckling strength under compression. Engineering Optimization, 1-19
4. Fu, J., Ding, J., Zhang, L., Qu, S., Song, X.*, Fu, M.W.* (2023) Development of conformal shell lattices via laser powder bed fusion and unraveling their mechanical responses via modeling and experiments. Additive Manufacturing, 62, 103406.

[2022]
5. Zhang, L., Lifton, J., Hu, Z., Hong, R., Feih, S.* (2022). Influence of geometric defects on the compression behaviour of thin shell lattices fabricated by micro laser powder bed fusion, Additive Manufacturing, 58, 103038.
6. Zhang, L., Ma, Q., Ding, J., Qu, S., Fu, J., Fu, M.W., Song, X.*, Wang, M.Y.* (2022). Design of elastically isotropic shell lattices from anisotropic constitutive materials for additive manufacturing. Additive Manufacturing, 59, 103185.
7. Yang, Y.#, Xu, T.#, Bei, H.P., Zhang, L., Tang, C.Y., Zhang, M., Xu, C., Bian, L., Yeung, K.W.K*, Fuh, J.Y.H*, Zhao, X.* (2022). Gaussian curvature-driven direction of cell fate towards osteogenesis with triply periodic minimal surface scaffolds. The Proceedings of the National Academy of Sciences, 119(41), e2206684119.
8. Ma, Q.#, Yan, Z.#, Zhang, L.*, Wang, M.Y. (2022). The family of elastically isotropic stretching-dominated cubic truss lattices. International Journal of Solids and Structures, 239-240, 111451.
9. Chen, F.*, Miao, Y., Zhang, L.*, Chen, S., Zhu, X. (2022). Triply Periodic Channels Enable Soft Pneumatic Linear Actuator with Single Material and Scalability. IEEE Robotics and Automation Letters, 7(2), 2668-2675
10. Ding, J., Qu, S., Zhang, L., Wang, M.Y., Song, X.* (2022) Geometric deviation and compensation for thin-walled shell lattice structures fabricated by high precision laser powder bed fusion. Additive Manufacturing, 58, 103061.
11. Ma, Q., Zhang, L., Wang, M.Y.* (2022). Elastically isotropic open-cell uniform thickness shell lattices with superior stiffness via shape optimization. Materials & Design, 215, 110426.
12. Hu, Z., Gao, S., Zhang, L., Shen, X., Seet, H.L., Nai, S.M.L., Wei, J. (2022). Micro laser powder bed fusion of stainless steel 316L: Cellular structure, grain characteristics, and mechanical properties. Materials Science and Engineering: A, 848, 143345.
13. Fu, J., Ding, J., Qu, S., Zhang, L., Wang, M.Y., Fu, M.W.*, Song, X.* (2022). Improved light-weighting potential of SS316L triply periodic minimal surface shell lattices by micro laser powder bed fusion. Materials & Design, 222, 111018.

[2021]
14. Zhang, L., Hu, Z., Wang, M. Y., Feih, S.* (2021). Hierarchical sheet triply periodic minimal surface lattices: design, geometric and mechanical performance. Materials & Design, 209, 109931.
15. Ma, Q., Zhang, L., Ding, J., Qu, S., Fu, J., Zhou, M., Fu, M.W., Song, X., Wang, M.Y.* (2021). Elastically-isotropic open-cell minimal surface shell-lattices with superior stiffness via variable thickness design. Additive Manufacturing, 47, 102293.
16. Hong, R., Zhang, L., Lifton, J., Daynes, S., Wei, J., Feih, S.*, Lu, W.F.* (2021). Artificial neural network-based geometry compensation to improve the printing accuracy of selective laser melting fabricated sub-millimetre overhang trusses. Additive Manufacturing, 37, 101594.
17. Chang, S.#, Zhang, Y.#, Zhang, B.#, Cao, X., Zhang, L., Huang, X.*, Lu, W., Ong, C.Y.A., Yuan, S., Li, C., Huang, Y., Zeng, K., Li, L., Yan, W.*, Ding, J.* (2021). Conductivity Modulation of 3D-Printed Shellular Electrodes through Embedding Nanocrystalline Intermetallics into Amorphous Matrix for Ultrahigh-Current Oxygen Evolution. Advanced Energy Materials, 11(28) 2100968.

[2020]
18. Zhang, L., Feih, S., Daynes, S., Chang, S., Wang, M.Y., Wei, J., Lu, W.F.* (2020). Pseudo-ductile fracture of 3D printed alumina triply periodic minimal surface structures. Journal of the European Ceramic Society, 40(2), 408-416.

[2019]
19. Chang, S., Liu, A., Ong, C.Y.A., Zhang, L., Huang, X., Tan, Y.H., Zhao, L., Li, L. and Ding, J.* (2019). Highly effective smoothening of 3D-printed metal structures via overpotential electrochemical polishing. Materials Research Letters, 7(7), 282-289.

[2016-2018]
20. Zhang, L., Feih, S., Daynes, S., Wang, Y., Wang, M.Y., Wei, J., Lu, W.F.* (2018). Buckling optimization of Kagome lattice cores with free-form trusses. Materials & Design, 145, 144-155.
21. Vijayavenkataraman, S.#*, Zhang, L.#, Zhang, S., Fuh, J.Y.H., Lu, W.F. (2018). Triply periodic minimal surfaces sheet scaffolds for tissue engineering applications: An optimization approach toward biomimetic scaffold design. ACS Applied Bio Materials, 1(2), 259-269.
22. Wang, Y., Zhang, L., Wang, M.Y.* (2016). Length scale control for structural optimization by level sets. Computer Methods in Applied Mechanics and Engineering, 305, 891-909.

• 2020-2021 Research Talent Hub, Innovation and Technology Commission (HKSAR)
• 2021 A*STAR Research Highlights: A new angle on 3D-printed metal (https://research.a-star.edu.sg/articles/highlights/building-a-new-wave-of-lightweight-structural-panels/)
• 2018 A*STAR Research Highlights: Building a new wave of lightweight structural panels (https://research.a-star.edu.sg/articles/highlights/a-new-angle-on-3d-printed-metal/)
• 2015-2019 Research Scholarship, National University of Singapore