2016.09 – 2019.06 工学博士 重庆大学
2014.09 – 2016.06 工学硕士 重庆大学
2010.09 – 2014.06 工学学士 重庆大学
2024.08~至今 副教授 重庆大学
2022.08~2024.07 助理教授 东京理科大学
2019.08~2022.07 助理教授 东北大学(日本)
[18] H. Yang, B. Yan*, K. Wu, Y. Gao, H. Deng, Z. Lv, B. Zhang, Data-driven digital twin framework for large-scale dynamic structures based on model reduction and damage regression identification, Engineering. Structures. 327 (2025) 119688.
[17] Y. Teng, B. Yan*, X. Zhou, H. Yang, Y. Gao, K. Wu, H. Deng*, Response characteristic parameters of six-bundle conductor lines in ultra-heavy ice zones following ice-shedding, Cold Regions Science and Technology. 231 (2025) 104396.
[16] H. Deng*, B. Yan, L. Chen, K. Wu, H. Yang, Determination of the plastic J integral of ductile material using the XFEM with only Heaviside function and variable-node elements, Engineering Fracture Mechanics. 310 (2024) 110524.
[15] D. Yang, B. Yan*, Y. Xu, P. Liu, H. Deng, H. Yang, Mechanism of initiation and propagation of surface cracks in gun bore under thermomechanical coupling impact, Case Studies in Thermal Engineering. 62 (2024) 105194.
[14] H. Yoshida, H. Deng, J. Koyanagi*, Enhanced Estimation of Axial Compressive Strength for CFRP Based on Microscale Numerical Simulation and the Response, Materials (Basel). 17 (2024) 478.
[13] Y. Li, H. Deng, M. Takamura, J. Koyanagi*, Durability Analysis of CFRP Adhesive Joints: A Study Based on Entropy Damage Modeling Using FEM, Materials (Basel). 16 (2023) 6821.
[12] H. Deng*, B. Yan, J. Koyanagi, Improved XFEM for 3D interfacial crack modeling, Mechanics of Materials, 186 (2023) 104811.
[11] H. Deng, K. Toda, M. Sato, J. Koyanagi*, Micro-Scale Numerical Simulation of Fatigue Failure for CFRP Subjected to Multiple-Amplitude Cyclic Loadings Based on Entropy Damage Criterion, Materials (Basel). 16 (2023) 6120.
[10] H. Deng*, B. Yan, X. Zhang, Y. Zhu, J. Koyanagi, New crack front enrichment for XFEM modeling, International Journal of Solids and Structures, 274 (2023) 112280.
[9] H. Deng, A. Mochizuki, M. Fikry, S. Abe, S. Ogihara, J. Koyanagi*, Numerical and Experimental Studies for Fatigue Damage Accumulation of CFRP Cross-Ply Laminates Based on Entropy Failure Criterion, Materials (Basel). 16 (2023) 388.
[8] H. Deng*, B. Yan, X. Zhang, Y. Zhu, A new enrichment scheme for the interfacial crack modeling using the XFEM, Theoretical and Applied Fracture Mechanics, 122 (2022)103595.
[7] H. Deng*, B. Yan, T. Okabe, Fatigue crack propagation simulation method using XFEM with variable-node element, Engineering Fracture Mechanics, 269 (2022) 108533.
[6] H. Deng*, B. Yan, Y. Zhu, A new path-independent interaction integral for the SIFs of interfacial crack, Theoretical and Applied Fracture Mechanics, 120 (2022) 103389.
[5] H. Deng, Y. Kawagoe*, Y. Abe, K. Terada, T. Okabe, Generalized coordinate smoothed particle hydrodynamics with an overset method in total Lagrangian formulation, International Journal for Numerical Methods in Engineering, 123 (2022) 4518–4544.
[4] H. Deng, B. Yan*, T. Okabe, A new path-independent interaction integral for dynamic stress intensity factors of cracked structures, International Journal of Solids and Structures. 243 (2022) 111559.
[3] Y. Zhu, B. Yan*, M. Deng, H. Deng, D. Cai, Surrogate model for energy release rate and structure optimization of double-ceramic-layers thermal barrier coatings system, Surface and Coatings Technology. 430 (2022) 127989.
[2] H. Deng, B. Yan*, H. Su, X. Zhang, X. Lv, Study on transient heat flux intensity factor with interaction integral, International Journal of Thermal Sciences, 146 (2019) 106014.
[1] H. Deng, B. Yan*, H. Su, X. Zhang, X. Lv, An interaction integral method for calculating heat flux intensity factor with the XFEM, International Journal of Thermal Sciences, 136 (2019) 379–388.
[1] US-Japan Conference on Composite Materials and Euro-Japan conference on Composite Materials, Sendai,Japan,2022, July
[2] Japan Conference of Composite Materials-14, Tokyo,Japan,2023, March
[3] US-Japan Joint Symposium for Composite Materials, Tokyo,Japan,2023, July
[4] Japan Conference of Composite Materials-15, Kyoto,Japan,2024, March