一、基本信息
姓名:王士龙
学位:博士
职称:副教授
职务:支部书记
电话:15255122623
E-mail:wshilong2012@163.com
邮编:243002
通讯地址:安徽省马鞍山市新城东区马向路安徽工业大学东区mg4355vip检测中心
二、教育背景
1、2008.09-2012.06 山东大学 工程力学 学士
2、2012.09-2017.06 中国科学技术大学 工程力学 硕博连读
3、2017.06-至今 安徽工业大学 土木工程系 讲师/副教授
三、研究领域
1、多胞材料的多尺度设计与构筑;
2、结构的冲击动力学行为;
3、轻量化多功能材料与结构设计;
四、学术、社会兼职
中国力学学会会员、担任《Composites Part B: Engineering》、《International Journal of Mechanical Sciences》、《Composites Communications》、《Journal of Mechanical Engineering Science 》、《Structures》等期刊审稿人。
五、主要科研项目
(1)国家自然科学基金“可调控动力学性能的多孔材料细观变形机理及设计方法研究”(11802002),主持;
(2)冲击与安全工程教育部重点实验室开发基金“密度分布连续可控超轻泡沫材料的动力学行为及多尺度设计研究” (cj01905),主持;
(3)安徽工业大学青年教师科研基金项目“多胞材料动力学性能的细观微结构效应及其耐撞性优化设计”(RD17100204),主持;
六、学术成果
1、主要期刊论文
[1] Wang SL*, Zhang M, Pei WJ, Yu F, Jiang YH. Energy-absorbing mechanism and crashworthiness performance of thin-walled tubes diagonally filled with rib-reinforced foam blocks under axial crushing. Composite Structures, 2022, 299, 116149.
[2] Wang SL*, Zhang M, Zha SG, Ding YY. In-plane crushing of a novel sinusoid-curved honeycomb under static and dynamic loadings. International Journal of Crashworthiness, 2022, 1–17.
[3] Wang SL*, Wang Y, Yu F, Yang YF, Huang ZL, Ding YY. Evaluation of in-plane crushing performance of printed randomly polymeric honeycombs filled with foamed concrete. Construction and Building Materials, 2021, 310: 125291.
[4] Wang SL*, Zhang M, Wang Y, Huang ZL, Fang Y. Experimental studies on quasi-static axial crushing of additively-manufactured PLA random honeycomb-filled double circular tubes. Composite Structures, 2021, 261: 113553.
[5] Wang SL*, Wang HQ, Ding YY, Yu F. Crushing behavior and deformation mechanism of randomly honeycomb cylindrical shell structure. Thin-Walled Structures, 2020, 151: 106739.
[6] Wang SL, Ding YY, Yu F, Zheng ZJ*, Wang Y. Crushing behavior and deformation mechanism of additively manufactured Voronoi-based random open-cell polymer foams. Materials Today Communications, 2020, 25: 101406.
[7] Wang SL, Zheng ZJ*, Ding YY, Zhu CF, Yu JL. Dynamic crushing of cellular materials: A particle velocity-based analytical method and its application. Acta Mechanica Sinica 2019, 35(4): 839–851.
[8] Wang SL, Zheng ZJ, Zhu CF, Ding YY, Yu JL. Crushing and densification of rapid prototyping polylactide foam: Meso-structural effect and a statistical constitutive model. Mechanics of Materials, 2018, 127: 65–76.
[9] Wang SL, Ding YY, Wang CF, Zheng ZJ, Yu JL. Dynamic material parameters of closed-cell foams under high-velocity impact. International Journal of Impact Engineering, 2017, 99: 111–121.
[10] Yu F, Guo SQ, Wang SL*, Fang Y. Experimental study on high pre-cracked RC beams shear-strengthened with CFRP strips. Composite Structures, 2019, 225: 111163.
[11] Yu F, Feng CC, Wang SL*, Huang W, Fang Y, Bu SS. Mechanical performance of recycled aggregate self-consolidating concrete column. Journal of Civil Engineering and Management, 2021, 27(3): 188–202.
[12] Yu F, Guan YC, Liu QQ, Wang SL*, Fang Y. (2020). Compressive behavior of joint core confined with core steel tube for connection of polyvinyl chloride-carbon fiber reinforced polymer–confined concrete column and reinforced concrete beam. Advances in Structural Engineering. 2020, 23(12): 2570–2856.
[13] Yu F, Qin C, Wang SL*, Jiang J, Fang Y. Stress-strain relationship of recycled self-compacting concrete filled steel tubular column subjected to eccentric compression. Frontiers of Structural and Civil Engineering. 2020, 14(1): 760–772.
[14] Yu F, Chen TY, Niu K, Wang SL*, Fang Y. Study on Bond-Slip Behaviors of Self-Stressing Steel Slag Concrete-Filled Steel Tube. Journal of Civil Engineering. 2020, 20(1): 3309–3319.
[15] 张旻, 杨轶凡, 裴文杰, 王士龙*, 黄志来. 肋板增强泡沫分区填充薄壁管横向压溃性能.复合材料学报, 2022.
[16] 王宏权, 王耀, 王士龙*, 黄志来. 3D打印随机蜂窝夹芯圆管结构的准静态轴向压溃性能研究. 实验力学, 2021, 36(03): 397-413.
[17] Zhu CF, Zheng ZJ*, Wang SL, Zhao K, Yu J. (2019). Modification and verification of the Deshpande–Fleck foam model: A variable ellipticity. International Journal of Mechanical Sciences, 151(August 2018), 331–342.
[18] Yang J, Wang SL, Ding YY, Zheng ZJ*, Yu JL. (2017). Crashworthiness of graded cellular materials: A design strategy based on a nonlinear plastic shock model. Materials Science and Engineering: A, 680, 1–10.
[19] Ding YY, Wang SL, Zheng ZJ*, Yang LM, Yu JL. Dynamic crushing of cellular materials: A unique dynamic stress–strain state curve. Mechanics of Materials, 2016, 100, 219–231.
[20] Wang SL, Ding YY, Wang CF, Zheng ZJ*, Yu JL. Effect of Relative Density on the Dynamic Impact Behaviors of Closed-Cell Foam. ASME 2016 35th International Conference on Ocean, Offshore and Arctic Engineering, 2016, 1–8.
[21] 丁圆圆, 王士龙, 郑志军*, 杨黎明, 虞吉林. 多胞牺牲层的抗爆炸分析, 力学学报, 2014, 46(6): 825–833.