He Chunwang is an Associate Professor in Mechanics since 2024 at Institute of Advanced Structure Technology, Beijing Institute of Technology.

He completed his undergraduate degree in Engineering Mechanics at Chongqing University, where he ranked first in his major and was recommended for Ph.D. admission to Beijing Institute of Technology. During his Ph.D. studies at BIT, he focused on multiscale analysis of composite materials, developing reduced-order models to address the dimensionality curse in multiscale computations. His research has garnered significant attention from the academic community, with citations exceeding 1,000 to date. He has been honored with prestigious awards including the National Postdoctoral Innovative Talent Support Program and the Outstanding Doctoral Dissertation Award from the Composite Materials Society. He has been the reviewers of several academic journals including Composites Science and Technology, Composites Part A: Applied Science and Manufacturing; Composites Part B: Engineering, Thin-Walled Structures, Results in Engineering, Developments in the Built Environment, Reliability Engineering & System Safety, etc.

Design and Analysis of Composite Structures

Focusing on the mesoscopic modeling, stiffness, strength, progressive damage and multiscale properties of advanced composite structures. Using computational methods to reveal the mechanisms of composites during the service. Involving the AI techniques to accelerate the design and analysis.

Advanced Structural Technology for Energy Batteries

Data-driven modeling of multi-physics coupling equivalent constitutive law for battery electrode. Developing the advanced experimental device such as the BIB-SEM. Coupling DEM-FEM method for multiscale problems of electrode.

Data-driven Computational Mechanics

Data-driven reduced order modeling methods, such as the Self-consistent Clustering Analysis (SCA). Image-based multi-fields multiscale responses and the applications of Graph Neural Network (GNN).

[1] Yang, X., He, C.#, Yang, L., Song, W. L., & Chen, H. S#. (2024). Stochastic reconstruction and performance prediction of cathode microstructures based on deep learning. Journal of Power Sources, 603, 234410.

[2] Song, Y., Gao, K., He, C.#, Wu, Y., Yang, S., Li, N., ... & Chen, H#. (2023). Exploring particle-current collector contact damage in Li-ion battery using DEM-FEM scheme. Applied Energy, 351, 121904.

[3] He, C., Ge, J., Chen, Y., & Lian, Y. (2023). Concurrent multiscale virtual testing for 2D woven composite structures: a pathway towards composites design and structure optimization. Composite Structures, 304, 116406.

[4] Hu, X., He, C.#, Ge, J.#, Zhang, Q., & Liang, J. (2022). Progressive damage and failure analysis of three-dimensional braided composites under multiaxial loadings. International Journal of Solids and Structures, 254, 111853.

[5] He, C., Ge, J., Lian, Y., Geng, L., Chen, Y., & Fang, D. (2022). A concurrent three-scale scheme FE-SCA2 for the nonlinear mechanical behavior of braided composites. Computer Methods in Applied Mechanics and Engineering, 393, 114827.

[6] He, C., Ge, J., Cao, X., Chen, Y., Chen, H., & Fang, D. (2022). The effects of fiber radius and fiber shape deviations and of matrix void content on the strengths and failure mechanisms of UD composites by computational micromechanics. Composites Science and Technology, 218, 109139.

[7] He, C., Ge, J., Gao, J., Liu, J., Chen, H., Liu, W. K., & Fang, D. (2021). From microscale to mesoscale: The non-linear behavior prediction of 3D braided composites based on the SCA2 concurrent multiscale simulation. Composites Science and Technology, 213, 108947.

[8] He, C., Gao, J., Li, H., Ge, J., Chen, Y., Liu, J., & Fang, D. (2020). A data-driven self-consistent clustering analysis for the progressive damage behavior of 3D braided composites. Composite Structures, 249, 112471.

[9] He, C., Ge, J., Zhang, B., Gao, J., Zhong, S., Liu, W. K., & Fang, D. (2020). A hierarchical multiscale model for the elastic-plastic damage behavior of 3D braided composites at high temperature. Composites Science and Technology, 196, 108230.

[10] He, C., Ge, J., Qi, D., Gao, J., Chen, Y., Liang, J., & Fang, D. (2019). A multiscale elasto-plastic damage model for the nonlinear behavior of 3D braided composites. Composites Science and Technology, 171, 21-33.

Outstanding Doctoral Dissertation of CSFCM
National Postdoctoral Innovative Talent Support Program
Outstanding Doctoral Dissertation of BIT
Excellent Doctoral Dissertation Seedling Fund
National Scholarship for Doctor
CSC Scholarship for Visiting Scholar
Outstanding Undergraduates from Chongqing University
Outstanding Undergraduates from Chongqing Province
Excellent Undergraduates Thesis of Chongqing University
National Scholarship for Undergraduate
Meritorious Winner of Mathematical Contest in Modeling