教育背景
2009年9月—2013年7月 哈尔滨工业大学航天学院 工程力学 学士
2013年8月—2017年5月 新加坡国立大学土木学院 结构工程 博士
工作经历
2017年3月—2019年8月 澳大利亚昆士兰大学土木学院 博士后
2019年8月—2021年12月 新浦的京集团350vip8888(中国)有限公司 副教授 博导
2021年12月至今 新浦的京集团350vip8888(中国)有限公司教授 博导
研究成果
著作:
1. Wang C.M., Zhang H., Challamel N. and Pan W. (2020), Hencky bar chain/net models for structural analysis, World Scientific
2. Challamel N., Wang C.M., Zhang H., and Elishakoff I. (2020), Microstructure-based nonlocal models, Book chapter
期刊论文:
1. Zhu X.F., Zhang H.*, Lu G.X.*, Zhou H.Y. (2022), "Nonlinear impulsive and vibration analysis of nonlocal FG-CNT reinforced sandwich plate by considering agglomerations." European Journal of Mechanics - A/Solids: 92(104485).
2. Wang Z., Zhang H.*, Dong Y.H., Zhou H.Y., Huang G.Y.* (2022), "Ballistic performance and protection mechanism of aramid fabric modified by polyethylene and graphene." International Journal of Mechanical Sciences: 107772.
3. 刘宇航,张宏*,黄广炎,周宏元 (2022). “高性能复合纤维的防刺机理”,兵工学报, doi: 10.12382/bgxb.2021.0513.。
4. Zhang H., Wang C. M., Challamel N. and Pan W.H. * (2020), "Calibration of Eringen's small length scale coefficient for buckling circular and annular plates via Hencky bar-net model." Applied Mathematical Modelling: 78(399-417).
5. Zhang H., Wang C. M.*, Challamel N. and Zhang Y.P. (2018), "Uncovering the finite difference model equivalent to Hencky bar-net model for axisymmetric bending of circular and annular plates." Applied Mathematical Modelling: 61(300-315).
6. Zhang H., Wang C. M.* and Challamel N. (2018), "Modelling vibrating nano-strings by lattice, finite difference and Eringen's nonlocal models." Journal of Sound and Vibration: 425(41-52).
7. Zhang H., Challamel N. *, Wang C. M. and Zhang Y.P. (2019), "Buckling of multiply connected bar-chain and its associated continualized nonlocal model." International Journal of Mechanical Sciences: 150(168-175).
8. Zhang H., Challamel N.*, Wang C. M. and Zhang Y.P. (2019). "Exact and nonlocal solutions for vibration of multiply connected bar-chain system with direct and indirect neighbouring interactions." Journal of Sound and Vibration: 443(63-73).
9. Zhang H.*, Wang C. M. and Challamel N. (2016), "Buckling and vibration analyses of Hencky bar-chain with internal elastic springs." International Journal of Mechanical Sciences: 119(383-395).
10. Zhang H.*, Wang C. M. and Challamel N. (2017), "Small length scale coefficient for Eringen’s and lattice-based continualized nonlocal circular arches in buckling and vibration." Composite Structures: 165(148-159).
11. Wang C. M., Zhang H.*, Challamel N. and Duan W.H. (2017), "On boundary conditions for buckling and vibration of nonlocal beams." European Journal of Mechanics - A/Solids: 61(73-81).
12. Zhang H.*, Wang C. M., Ruocco E. and Challamel N. (2016), "Hencky bar-chain model for buckling and vibration analyses of non-uniform beams on variable elastic foundation." Engineering Structures: 126(252-263).
13. Zhang H.*, Wang C. M., Challamel N. and Ruocco E. (2017), "Semi-analytical solutions for optimal design of columns based on Hencky bar-chain model." Engineering Structures: 136(87-99).
14. Wang C. M., Zhang H.*, Challamel N. and Xiang Y. (2016). "Buckling of nonlocal columns with allowance for selfweight."Journal of Engineering Mechanics: 142(7).
15. Zhang H. and Wang C. M.* (2018), "Hencky bar-chain model for optimal circular arches against buckling." Mechanics Research Communications: 88(7-11).
16. Zhang H., Zhang Y.P. and Wang C. M.* (2018). "Hencky bar-net model for vibration of rectangular plates with mixed boundary conditions and point supports." International Journal of Structural Stability and Dynamics: 18(3).
17. Pan W.H., Wang C. M. and Zhang H.* (2019). “Matrix method for buckling analysis of frames based on Hencky bar-chain model.” International Journal of Structural Stability and Dynamics: 19(8).
18. Ruocco E., Zhang H.* and Wang C. M. (2016). "Hencky bar-chain model for buckling analysis of non-uniform columns." Structures: 6(73-84).
19. Wang C. M.*, Zhang H., Gao R.P., Duan W.H. and Challamel N. (2015). "Hencky bar-chain model for buckling and vibration of beams with elastic end restraints." International Journal of Structural Stability and Dynamics: 15(1540007).
20. Xu Y.J., Zhang H. and Huang G.Y. * (2022), " Ballistic performance of B4C/STF/Twaron composite fabric." Composite Structures: 279(114754).
21. Xie Y.C., Zhang H., Zhu W. and Huang G.Y. * (2022), " Effects of textile structure and projectile geometry on ballistic performance of UHMWPE textiles." Composite Structures: 279(114785).
承担项目:
1. 工信部启明计划,极端环境XXX研究,2021,300万元,主持在研;
2. 技术领域基金,XXX多效应XXX人员的XXX判据,2022,90万元,主持 在研;
3. 国家自然科学基金青年项目,高速弹道冲击下石墨烯增强芳纶织物的动态响应与防护机理,2021,24万元,主持在研;
4. 爆炸科学与技术国家重点实验室自主基金,纳米粒子改性柔性材料的防弹性能研究,2020,10万元,主持在研;
5. 重庆市面上项目,功能梯度复合纤维织物在弹道冲击下的防护机理研究,2021,10万元,主持在研;
6. 科技部重点研发计划专项,XXX柔性防护与无人化XXX技术,2021,423万元,参与在研;
7. 装备预研,XXX战斗部技术,2019,190万元,参与结题;
8. 澳大利亚政府CRC项目,大型浮体结构,2017,800万澳元,参与结题。
教学工作
(1) 指导硕士生11名(毕业2名)和博士生4名。
(2) 主要讲授课程:本科生专业必修课《材料力学》
社会兼职
《Composite Structures》、《International Journal of Mechanical Sciences》、《Engineering Structures》、《International Journal of Structural Stability and Dynamics》等SCI期刊审稿人
研究方向
先进防护材料与结构、冲击动力学、结构建模与计算力学、基于机器学习的防护应用、人体损伤评估与防护