Dr. Lu WANG

Dr. Lu WANG

Assistant Professor at City University of Hong Kong

Publications & Talks

Publications

# for co-first author

[19] Wang, L., Guo, Z., Peng, G., Wu, S., Zhang, Y., & Yan, W. (2024). Evaporation‐Induced Composition Evolution in Metal Additive Manufacturing. Advanced Functional Materials, 2412071. (link)

[18] Chia, H. Y., Zhang, Y., Wang, L., & Yan, W. (2024). Unveiling gas–liquid metal reactions in metal additive manufacturing: High-fidelity modeling validated with experiments. Acta Materialia, 275, 120029. (link)

[17] Deng, Q., Chen, F., Wang, L., Liu, Z., Wu, Q., Chang, Z., … & Ding, W. (2024). Exceptional strength paired with increased cold cracking susceptibility in laser powder bed fusion of a Mg-RE alloy. Journal of Materials Science & Technology. (link)

[16] Xie, Z., Chen, F., Wang, L., Ge, W., & Yan, W. (2024). Data-driven prediction of keyhole features in metal additive manufacturing based on physics-based simulation. Journal of Intelligent Manufacturing, 35(5), 2313-2326. (link)

[15] Wang, L., Guo, Q., Chen, L., & Yan, W. (2023). In-situ experimental and high-fidelity modelling tools to advance understanding of metal additive manufacturing. International Journal of Machine Tools and Manufacture, 104077. (link)

[14] Wang, L., Wang, S., Zhang, Y., & Yan, W. (2023). Multi-phase flow simulation of powder streaming in laser-based directed energy deposition. International Journal of Heat and Mass Transfer, 212, 124240. (link)

[13] Wang, Y.#, Wang, L.#, Liu, D., Miao, B., Wu, H., Pei, J., … & Yuan, G. (2023). Mechanisms of processing map difference between laser powder bed fusion of Mg solid cubes and lattice structures. Additive Manufacturing, 76, 103773. (link)

[12] Chia, H. Y., Wang, L., & Yan, W. (2023). Influence of oxygen content on melt pool dynamics in metal additive manufacturing: High-fidelity modeling with experimental validation. Acta Materialia, 249, 118824. (link)

[11] Du, D., Wang, L., Dong, A., Yan, W., Zhu, G., & Sun, B. (2022). Promoting the densification and grain refinement with assistance of static magnetic field in laser powder bed fusion. International Journal of Machine Tools and Manufacture, 183, 103965. (link)

[10] Zhang, Y., Yu, Y., Wang, L., Li, Y., Lin, F., & Yan, W. (2022). Dispersion of reinforcing micro-particles in the powder bed fusion additive manufacturing of metal matrix composites. Acta Materialia, 235, 118086. (link)

[9] Yu, Y., Wang, L., Zhou, J., Li, H., Li, Y., Yan, W., & Lin, F. (2022). Impact of fluid flow on the dendrite growth and the formation of new grains in additive manufacturing. Additive Manufacturing, 55, 102832. (link)

[8] Zhang, S.#, Ding, M.#, Wang, L.#, Ge, W., & Yan, W. (2022). Laser powder bed fusion of diamond/N6 MMCs enabled by Ni-Ti coated diamond particles. Materials & Design, 217, 110635. (link)

[7] Hu, D., Grilli, N., Wang, L., Yang, M., & Yan, W. (2022). Microscale residual stresses in additively manufactured stainless steel: Computational simulation. Journal of the Mechanics and Physics of Solids, 161, 104822. (link)

[6] Wang, L., Zhang, Y., Chia, H. Y., & Yan, W. (2022). Mechanism of keyhole pore formation in metal additive manufacturing. npj Computational Materials, 8(1), 22. (link)

[5] Yang, M., Wang, L., & Yan, W. (2021). Phase-field modeling of grain evolution in additive manufacturing with addition of reinforcing particles. Additive Manufacturing, 47, 102286. (link)

[4] Wang, L., & Yan, W. (2021). Thermoelectric magnetohydrodynamic model for laser-based metal additive manufacturing. Physical Review Applied, 15(6), 064051. (link)

[3] Yang, M., Wang, L., & Yan, W. (2021). Phase-field modeling of grain evolutions in additive manufacturing from nucleation, growth, to coarsening. Npj Computational Materials, 7(1), 56. (link)

[2] Han, Y.#, Wang, L.#, Liu, K., & Yan, W. (2020). Numerical modeling of laser powder bed fusion of metallic glasses: Prediction of crystallization. Journal of Micromechanics and Molecular Physics, 5(04), 2050013. (link)

[1] Wang, L., Zhang, Y., & Yan, W. (2020). Evaporation model for keyhole dynamics during additive manufacturing of metal. Physical Review Applied, 14(6), 064039. (link)

Invited talks

[4] Northwestern Polytechnical University, Xi’an, China, 2024. (Host: Assoc. Prof. Min Yang)

[3] Norwegian University of Science and Technology, Trondheim, Norway, 2023. (Host: Assoc. Prof. Jun Ma)

[2] Huazhong University of Technology and Science, Wuhan, China, 2022. (Host: Prof. Shengyong Pang)

[1] Wuhan University of Technology, Wuhan, China, 2022.

Conference presentations

[4] SIM-AM 2023, Munich, Germany, 2023 (Presentation)

[3] TMS2022, California, US, 2022, Online. (Presentation)

[2] International Solid Freeform Symposium, Texas, US, 2021, Online. (Presentation)

[1] Materials for Humanity (MH21), 2021, Online. (Presentation)