Selected Publications

Selected publications in recent years (* indicates corresponding author)

  1. Kai Liu, Lu Meng, Ang Zhao, Zhonggang Wang, Leilei Chen, Pei Li*, A hybrid direct FE 2 method for modeling of multiscale materials and structures with strain localization, Computer Methods in Applied Mechanics and Engineering, 412(2023):116080.

  2. Kai Liu, Pei Li, Zhonggang Wang, "Buckling-regulated origami materials with synergy of deployable and undeployable features", International Journal of Mechanical Sciences 247(2023): 108167.

  3. Kai Liu, Pei Li*, Zhonggang Wang, "A rate-sensitive and pressure-dependent failure criterion for hail ice", International Journal Impact Engineering 168(2022): 104291.

  4. Wenjun Chen, Vincent Beng Chye Tan, Xiangguo Zeng, Pei Li, "FE2 methodology for Discrete Cohesive Crack propagation in Heterogenous Materials". Engineering Fracture Mechanics 269(2022): 108537.

  5. Xu, Junhao, Pei Li, Leong Hien Poh, Yingying Zhang, and Vincent Beng Chye Tan. "Direct FE2 for concurrent multilevel modelling modeling of heterogeneous thin plate structures." Computer Methods in Applied Mechanics and Engineering 392 (2022): 114658.

  6. Liu, Kai, Pei Li, and Zhonggang Wang. "Statistical modeling of random hail impact." Extreme Mechanics Letters 48 (2021): 101374.

  7. Pei Li*, Y.B. Guo, Victor P.W. Shim. "A rate-sensitive constitutive model for anisotropic cellular materials, and its application to a transversely isotropic polyurethane foam". International Journal of Solids and Structures 206 (2020) 43-58.

  8. Pei Li*, Y.B. Guo, Victor P.W. Shim. "Micro/meso-scale simulation of anisotropic foam under impact -- a structural cell assembly approach". International Journal of Impact Engineering 135 (2019) 103404.

  9. Pei Li*, Y.B. Guo, M. W. Zhou, Victor P.W. Shim. "Response of anisotropic polyurethane foam to compression at different loading angles and strain rates". International Journal of Impact Engineering 127 (2018) 154-168.

  10. Pei Li*, Y. B. Guo, and V. P. W. Shim. "A constitutive model for transversely isotropic material with anisotropic hardening." International Journal of Solids and Structures 138 (2018): 40-49.