研究方向 结构抗爆、抗冲击性能 高性能材料 科研项目 · 国家自然科学基金专项基金:三维霍普金森杆冲击加载装置研制项目,2013-2016(51227006,300万,参与) · 国家自然科学基金面上:螺旋纤维FRC动力特性与构件抗爆快速评估系统研,2017-2020(51678403,69万,参与) · 国家自然科学基金面上:蒸压加气混凝土砌体构件抗爆与加固评估系统研究,2018-2021(51778415,60万,参与) · 国家自然科学基金青年:考虑静水压力损伤和孔隙水效应的混凝土动态本构模型研究,2020-2022(51908405,25万,参与) 代表性论著 [1] Li, M. , Hao, H. , Shi, Y. , & Hao, Y. . (2018). Specimen shape and size effects on the concrete compressive strength under static and dynamic tests. Construction and Building Materials, 161(FEB.10), 84-93.(SCI一区) [2] Li, M., Hao, H., Cui, J., & Hao, Y. F. (2022). Numerical investigation of the failure mechanism of cubic concrete specimens in SHPB tests. Defence Technology, 18(1), 1-11. (SCI二区) [3] Li, M. , Hao, H. , & Cui, J. (2022). Numerical investigation of the failure mechanism of concrete specimens under tri-axial dynamic loads. Engineering Fracture Mechanics, 266, 108425. (SCI二区) [4] Li, M. , Hao, H. , Hao, Y. , & Shi, Y. . (2017). Experimental study on static and dynamic compressive strength with cubic and cylindrical specimens.The 15th Asia-Pacific Conference on Structural Engineering and Construction. [5] Li, M. , Jin, X. , & Li, Y. . (2013). Numerical Simulation Analysis of Auxiliary-Rod Force for Tower. International Conference on Structures and Building Materials (ICSBM).(EI) [6] 李梅, 李艳辉, 靳小俊, & 刘亚玲. (2013). 塔架水平辅助杆的受力分析和设计. 机械设计与研究(03), 134-138.(CSCD) [7] Mei, Y. , Li, M. , Song, J. , & Gao, X. X. . (2013). Stress analysis of perforated plate based on ansys. Advanced Materials Research, 652-654, 1372-1376.(EI) 授权专利 · 一种大摆角龙门式五轴联动混联机床.中国:ZL 201610169598.6,2018-05-18. |
