williamhill英国官网青年首席教授，硕士/博士生导师，University of Western Australia公派访问学者；爆炸安全防护教育部工程研究中心副主任；

国家优秀青年科学基金获得者（2016）、爆炸力学优秀青年学者、获中国岩石力学与工程学会青年科技奖、江苏省优秀博士论文；兼任国际防护结构学会会刊International Journal of Protective Structures、《防护工程》、《防灾减灾工程学报》、《含能材料》等期刊编委。

主持国家自然科学基金6项，国家重点研发计划课题1项，以及各类课题和工程项目30余项。

获国家科技进步二等奖1项，省部级科技进步一等奖3项、二等奖3项。近5年以第一/通讯作者发表中英文期刊论文76篇（含JCR 1区SCI论文55篇），累计发表论文285篇，IF > 5 的 SCI 论文107篇，分别在国际抗爆防灾领域顶刊International Journal of Impact Engineering和Engineering Structures发表32篇和22篇。H-index 41，连续5年入选斯坦福前2%顶尖科学家榜单，获国际结构工程进展J.M. Ko Medal（每年全球仅一篇），出版译著《现代防护结构》；编制国军标和行业标准等4部；授权专利和软件著作权40余项。

国际防护结构学会（IAPS）会员

全国基础设施防震减灾青年委员会 副主任委员

《工程结构抗爆计算与设计》本科生、研究生课程，春季开课

《工程结构防灾与防护》研究生课程，春季开课

主持和参与的国家级项目：

[1] 国家优秀青年科学基金项目，51622812，抗爆结构

[2] 国家自然科学基金面上项目，51378016，燃气爆炸灾害下装配式混凝土剪力墙结构损伤破坏机理和倒塌机制研究

[3] 国家自然科学基金面上项目，51378016，爆炸与火灾联合作用下钢筋混凝土结构损伤机理与防护技术研究

[4] 国家自然科学基金青年项目，51008306，爆炸和火荷载联合作用下钢筋混凝土柱损伤与破坏的分析方法研究

[5] 国家重大科学仪器研究专项，51427807，混凝土类材料超大尺寸高应变率纯剪切实验系统

[6] 国家自然科学基金重点项目，51238007，爆炸作用下建筑结构抗连续倒塌控制理论与方法

[7] 国家973计划项目，2015CB058000，燃（油）气爆炸灾害安全性基础研究

[8] 国家自然科学基金面上项目，51378488，地下油储库油气爆炸灾害荷载及结构损伤破坏机制研究

近2年20篇代表性论文

[1] Sijia Liu, Li Chen*. A scaling method for predicting dynamic responses of reinforced concrete beams under blast loads. International Journal of Impact Engineering. 2026, 210: 105611. (SCI)

[2] Sijia Liu, Li Chen*, Bin Feng. A novel scaling method for assessing dynamic response distortions of thin plates induced by blast loads. International Journal of Impact Engineering. 2026, 212: 105637. (SCI)

[3] Xiaolong Chen, Li Chen*, Tai Thai, Qin Fang. A semi-empirical formula for rigid projectile penetration into large-particle rubble concrete. Engineering Structures.2026, 353(Part A): 122257. (SCI)

[4] Xiaolong Chen, Li Chen*, Tai Thai, Qin Fang. A semi-analytical model incorporating scaling effects for deformable penetration of flat-nosed long rods into semi-infinite concrete targets. International Journal of Impact Engineering. 2026, 212, 105661. (SCI)

[5] Xiaolong Chen, Li Chen*, Tai Thai. An improved fractal comminution approach on the scaling effect of rigid projectile penetration into semi-infinite concrete targets. International Journal of Impact Engineering. 2025, 208: 105513.(SCI)

[6] Puchu Xie, Li Chen*, Bin Feng, Chengjun Yue, Linfeng Xu, Boyu Chen. Residual impact resistance of fire-exposed RC slabs: High-fidelity modeling, mechanisms, and prediction. International Journal of Impact Engineering. 2026, 212: 105640. (SCI)

[7] Puchu Xie, Li Chen*, Boyu Chen, Jiayi Yuan, Xiangzhen Kong. A mesh-compatible material point finite element (MCMPFE) model for high-velocity impact and penetration. Engineering Analysis with Boundary Elements. 2025, 179, 106347. (SCI)

[8] Puchu Xie, Li Chen*, Boyu Chen, Xiangzhen Kong. Modeling projectile penetration into RC structures using truss-enhanced adaptive FEM-MPM. International Journal of Impact Engineering. 2025, 206, 105437. (SCI)

[9] Mingjin Cao, Li Chen*, Zekun Wang, Shaoyu Zhao, Qiyao Li, Sritawat Kitipornchai, Jie Yang*. Impact performance of Kresling origami with large folding ratios. International Journal of Impact Engineering. 2025, 207: 105506. (SCI)

[10] Xingchi Teng, Li Chen*, Mingjin Cao, Zekun Wang, Yifan Xing. Energy absorption and multi-platform design in homo/hetero-chiral bilayer kresling metamaterial. International Journal of Mechanical Science. 2026, 311:111211. (SCI)

[11] Chen Li, Yan Lei*. A novel hydro-elastoplastic damage constitutive model for local failure prediction of RC beams under contact explosion. Engineering Structures, 2025, 340, 120772. (SCI)

[12] Sijia Liu, Li Chen*, Bin Feng. Scaling prototype structures under far-field nuclear explosion by model tests using chemical explosion with consideration of the strain-rate effect. Engineering Structures. 2025, 336: 120364. (SCI)

[13] Mingjin Cao, Li Chen*, Qiyao Li, Shaoyu Zhao, Zekun Wang, Sritawat Kitipornchai, Jie Yang*. Quasi-rigid folding and geometric optimization of Kresling origami for highly improved foldability and load-bearing capacity. Engineering Structures. 2025, 334: 120274. (SCI)

[14] Mingjin Cao, Li Chen*, Shaoyu Zhao, Zekun Wang, Sritawat Kitipornchai, Jie Yang*. Multistable bi-modulus Kresling origami with superior foldability and stiffness: An analytical design model. Engineering Structures. 2025, 330, 119955. (SCI)

[15] Lei Yan, Li Chen*, Puchu Xie, Boyu Chen, Fengwei Zhang, Jimin He. Hydro-elastoplastic constitutive model of concrete incorporating regularization of mesh-size sensitivity subjected to contact explosion loads. International Journal of Impact Engineering. 2025, 198: 105226. (SCI)

[16] Lei Yan, Li Chen*, Boyu Chen, Qin Fang. Analysis and evaluation of suitability of high-pressure dynamic constitutive model for concrete under blast and impact loading. International Journal of Impact Engineering. 2025: 195, 105145. (SCI)

[17] Beibei Li, Bin Feng*, Li Chen. A graph network-based learnable simulator for spatial-temporal prediction of rigid projectile penetration. International Journal of Impact Engineering, 2025: 195, 105123. (SCI)

[18] 冯彬*, 陈力*. 深度学习技术赋能工程结构爆炸毁伤评估. 含能材料, 2025, 33(7): 683-688. 

[19]  Lei Yan, Li Chen*, Qin Fang. A novel hydro-elastoplastic constitutive model incorporating hydrostatic damage for predicting high-pressure performance of concrete under blast loading. International Journal of Impact Engineering. 2024, 192: 105037. (SCI)

[20] Sijia Liu, Li Chen*, Bin Feng. A theoretical method for scaling the dynamic response of steel beams subjected to blast loads. International Journal of Impact Engineering, 2024, 187: May 2024, 104918. (SCI)

教材专著：

[1] 译著《现代防护结构》/Modern Protective Structures, 科学出版社, 中国. 北京, 2026

[2] 主编江苏省重点教材《土木工程防灾减灾》, 科学出版社, 中国. 北京, 2026

[3] 编制《民用建筑防爆设计标准》T/CECS 736-2020等标准4部

[4] 陈力, 徐荣正, 方秦. 爆炸与火灾联合作用下混凝土材料与梁柱构件响应. 动力多灾害作用下工程结构防护研究新进展[M]. 2018, 12: 23-42, 中国建筑工业出版社. 中国. 北京, 2018, ISBN 978-7-112-22920-8。

[5] 陈力, 方秦, 于潇, 洪建. 高应变率与高温联合作用下混凝土材料动力响应及其本构模型. 冲击爆炸效应与工程防护研究新进展[M]. 2017, 364-400, 科学出版社, 中国. 北京, 2017, ISBN 978-7-03-055884-8