Journal Articles

  1. Li, X., Tan, W., 2018. Numerical investigation of effects of nucleation mechanisms on grain structure in metal additive manufacturing. Computational Material Science, 153, pp. 159-169.   [Link]
  2. Herriott, C.F., Li, X., Kouraytem, N., Tari, V., Tan, W., Anglin, B.S., Rollett, A.D., Spear, A.D., 2018. A multi-scale, multi-physics modeling framework to predict spatial variation of properties in additive-manufactured metals. Modelling and Simulation in Materials Science and Engineering, 27, p. 025009.   [Link]
  3. Kouraytem, N., Li, X., Cunningham, R., Zhao, C., Parab, N., Sun, T., Rollett, A.D., Spear, A.D., Tan, W., 2019. Effect of laser-matter interaction on molten pool flow and keyhole dynamics. Physical Review Applied, 11(6), p.064054.   [Link]
  4. Zhao, C., Guo, Q., Li, X., Parab, N., Fezzaa, K., Tan, W., Chen, L., Sun, T., 2019. Bulk-explosion-induced metal spattering during laser processing. Physical Review X, 9(2), p.021052.   [Link]
  5. Li, X., Zhao, C., Sun, T., Tan, W., 2020. Revealing transient powder-gas interaction in laser powder bed fusion process through multi-physics modeling and high-speed synchrotron X-ray imaging. Additive Manufacturing, 35, p.101362.   [Link]
  6. Li, X., Tan, W., 2020. Numerical Modeling of Powder Gas Interaction Relative to Laser Powder Bed Fusion Process. Journal of Manufacturing Science and Engineering, 143(5): 054502.   [Link]
  7. Kouraytem, N., Li, X., Tan, W., Kappes, B., Spear, A., 2020. Modeling process-structure-property relationships in metal additive manufacturing: a review on physics-driven versus data-driven approaches. Journal of Physics: Materials. Accepted.   [Link]
  8. Zhao C., Parab, N.D., Li, X., Fezzaa, K., Tan, W., Rollett A.D., Sun, T., 2020. Critical instability at moving keyhole tip generates porosity in laser melting. Science, 370(6520), 1080-1086.   [Link]
  9. Li, X., Guo, Q., Chen, L., Tan, W., 2021. Quantitative investigation of gas flow, powder-gas interaction, and powder behavior under different ambient pressure levels in laser powder bed fusion. International Journal of Machine Tools and Manufacture, 170, 103797.   [Link]
  10. Kamat, S., Li, X., Stump, B., Plotkowski, A., Tan, W., 2022. Multi-physics modeling of grain growth during solidification in electron beam additive manufacturing of Inconel 718. Modelling and Simulation in Materials Science and Engineering, 31(1), 015002.   [Link]

Conference Proceedings

  1. Li, X., Tan, W., 2016. Numerical investigation of laser absorption by metal powder bed in selective laser sintering processes. Solid Freeform Fabrication Symposium 2016, Austin, TX.   [Link]
  2. Li, X., Tan, W., 2017. 3-Dimensional Cellular Automata Simulation of Grain Structure in Metal Additive Manufacturing Processes. International Solid Freeform Fabrication Symposium 2017, Austin, TX.   [Link]
  3. Tan, W., Li, X., 2017. Numerical Modeling of Grain Growth in Laser Engineered Net Shaping (LENS) of AISI 316 Stainless Steel. International Manufacturing Science and Engineering Conference. American Society of Mechanical Engineers. [Link]
  4. Sun, D., Li, X., Tan, W., 2017. A Parametric Study on Grain Structure in Selective Laser Melting Process for Stainless Steel 316. International Solid Freeform Fabrication Symposium 2017, Austin, TX.   [Link]
  5. Li, X., Lua, J., Elenchezhian, M., Enos, R.S., Zhang, D., 2022. A Multiphysics Coupling of Resin Infusion and Deformation of Fiber Preform Using Customized STAR-CCM+ and ABAQUS. AIAA SciTech 2022 Forum (p. 1419).   [Link]
  6. Shrestha, K., Enos, R., Li, X., Wei, Q., Elenchezhian, M., Zhang, D., Lua, J., 2022. Proceedings of the american society for composites-thirty-seventh technical conference. 2022.   [Link]
  7. Lua, J., Karuppiah, A., Li, X., Shrestha, K., Yan, J., Zhao, Z., Zhang, D., 2023. Multiphysics Coupling for Evaluation of Effects of Local Boundary Conditions on Autoclave-Cured Composite. AIAA SciTech 2023 Forum (p. 0524).   [Link]