东南大学研究员，主持国家自然科学基金面上项目和青年项目各1项，以及纵向、横向科研课题十余项，总承担经费6000余万元。获2018年度江苏省优秀博士论文、2019年度全军优秀博士论文（全军每年仅43篇左右）。目前主要研究方向为爆炸冲击效应及工程结构抗爆抗冲击、新型含能材料高效毁伤、结构智能反设计、智能毁伤评估技术。

国家自然科学基金面上项目：有限厚度混凝土靶抗含能活性射流冲击侵彻-内爆耦合作用机理研究，主持

国家自然科学基金青年基金：基于J积分法的Al-PTFE断裂韧性测试及断裂反应机理研究，主持

国家自然科学基金面上项目：广应变率范围下氟聚物-金属反应材料特性及反应机理研究，主要参与

1.Li Beibei, Feng Bin *, et al. A Graph Network-Based Learnable Simulator for Spatial-temporal Prediction of Rigid Projectile Penetration[J]. International Journal of Impact Engineering, 2024. 

2.Bin Feng, Li Chen, Haoyang Li, et al. Propagation of the blast wave in the enclosed blast wall structure (EBWS) at a hazardous chemical storage yard—A mechanism study [J]. Engineering Structures, vol. 295, p. 116763, 2023. 

3.L. Xu, L. Chen*, B. Feng*, and D. Zhou, Research on internal explosion loads in folded arch tunnels: A theoretical approach [J], Tunnelling and Underground Space Technology, vol. 147, p. 105731, 2024. 

4.Feng B, Li Y C, Wu S Z, et al. A crack-induced initiation mechanism of Al-PTFE under quasi-static compression and the investigation of influencing factors [J]. Materials & Design, 108:411-417, 2016.

5.Feng B, Fang X, Wang H X, et al. The Effect of Crystallinity on Compressive Properties of Al-PTFE [J]. Polymers, 8(10):356, 2016.

6.Feng B, Fang X, Li Y C, et al. An initiation phenomenon of Al-PTFE under quasi-static compression [J]. Chemical Physics Letters, 637:38-41, 2015. 

7.Feng B, Li Y C, Hao H, et al. A Mechanism of Hot‐spots Formation at the Crack Tip of Al‐PTFE under Quasi‐static Compression[J]. Propellants Explosives Pyrotechnics, 2017.

8.Feng B, Qiu C L, Zhang T H, et al. Sensitivity of Al‐PTFE upon Low‐Speed Impact[J]. Propellants, Explosives, Pyrotechnics, 2019.

9.Feng B, Fang X, Li Y C, et al. Influence of Processing Techniques on Mechanical Properties and Impact Initiation of an Al-PTFE Reactive Material[J]. Central European Journal of Energetic Materials, 13(4):989-1004, 2016. 

10.冯彬，方向等.10-2s-1压缩应变率下Al-Teflon的反应现象.含能材料[J]，2016. 

11.冯彬，方向，李裕春，等.烧结温度、配比及粒径对Al-Teflon准静压反应的影响”含能材料[J]，2016.

12.Feng B, Hou R S, You Y C, et al. Numerical simulation of shaped charge igniting thick-cased-explosives covered by soil[C]// ICDT. 2018. 

13.Feng B, Liang X, Du W G, et al. A stochastic vulnerability analysis method for armored vehicles with active protection systems (APS)[J]. Journal of Physics Conference Series, 2020, 1507:082051. 

14.吴家祥, 李裕春, 冯彬*等. J积分法研究温度对Al-PTFE反应材料断裂韧性的影响[J]. 含能材料, 2022, 30(3): 214-221.

15.S. Liu, L. Chen, and B. Feng, A theoretical method for scaling the dynamic response of steel beams subjected to blast loads, International Journal of Impact Engineering, vol. 187, p. 104918, 2024.

16.L. Chen, P. Xie, B. Feng, et al. A modified K&C model for concrete subjected to coupled effect of high temperature and high strain rate[J], International Journal of Impact Engineering, vol. 181, p. 104760, 2023

17.Wu J, Wang H, Feng B, et al. The effect of temperature-induced phase transition of PTFE on the dynamic mechanical behavior and impact-induced initiation characteristics of Al/PTFE[J]. Polymer Testing, 2020, 91:106835.

18.Wu J, Liu Q, Feng B, et al. A comparative study on the mechanical and reactive behavior of three fluorine-containing thermites[J]. RSC Advances, 2020, 10(10).

19.Wu J, Feng B, Gao Z, et al. Investigation on the thermal decomposition and thermal reaction process of PTFE/Al/MoO3 fluorine-containing thermite Journal of Fluorine Chemistry[J],2020, 241.

20.Wu J, Feng B, Gao Z, et al. Effect of multi-oxidants on mechanical response and reactive characteristics of PTFE/Al reactive material under dynamic impact[J]. Materials Letters, 2021, 283:128886.

21.Wang H X, Li Y C, Feng B, et al. Compressive Properties of PTFE/Al/Ni Composite Under Uniaxial Loading[J]. Journal of Materials Engineering & Performance, 2017, 26(5):2331-2336.