English  
姓名: 王建山
性别:
英文名: Wang Jianshan
人才称号:
职称: 教授 博导
职务: null 专业: 固体力学
所在机构: 力学系 个人主页:
邮箱: wangjs@tju.edu.cn 办公地点: 天大机械工程学院力学系,300072
传真: 办公电话:
主要学历: 2003.9-2007.3 天津大学力学系 博士
2000.9-2003.7 天津大学力学系 硕士
1996.9-2000.7 天津大学力学系 学士

主要学术经历: 2018.7-至今 天津大学机械学院力学系,教授,博士生导师
2016.03-2018.02 国家自然科学基金委数理科学部力学科学处,生物力学流动项目主任
2012.11-2014.11 日本京都大学机械工程科学系, JSPS研究员
2009.05- 2018.6 天津大学机械学院力学系,讲师、副教授 , 硕导/博导
2007.04-2009.05 清华大学航院工程力学系 博士后
2007.12-2008.02 澳大利亚国立大学工程系 访问学者
2006.07-2006.11 香港城市大学建筑系 研究助理
2005.04-2005.10 澳大利亚国立大学工程系 访问学者


主要研究方向: 生物材料力学和仿生
微纳米力学

主要讲授课程: 弹性力学 (80学时、96学时)
复合材料力学(32学时)
固体力学基础(32学时)

主要学术兼职: 中国力学学会固体力学专业委员会“生物材料及仿生专业组”成员(2015-2020 )
中国力学学会固体力学专业委员会“断裂与疲劳”成员(2015- 2020)

主要学术成就: 2018 教育部自然科学一等奖;
2017 澳大利亚奋进研究学者奖(Australian Endeavour Research Fellowship)
2012 日本学术振兴会JSPS研究奖 (JSPS Research Fellowship)

主要科研项目: 国家自然科学基金面上项目:受限空间手性生物丝封装的力学机理和结构形态(2019.01-2022.12), 负责人
国家自然科学基金面上项目: 生物材料的手性生长和力学性能研究(2015.01-2018.12), 负责人
国家自然科学基金面上项目: 多级手性纳米材料中手性传递的力学研究(2013.01-2016.12), 负责人
国家自然科学基金青年项目:纳米螺旋材料的形貌和力学行为研究(2009.01-2011.12),负责人
973子课题,研究骨干
中国博士后基金:纳米螺旋材料的生长和形貌研究 (2008.08-2009.05),负责人

代表性论著: 1. Xie, H.M., Kang, Y.L.*, Song, H.B., Shi, B.Q., Wang, J.S.*, Modified stoney model and optimization of electrode structure based on stress characteristics. Energy Technology, 7, 333-345, 2019.
2. Guo, Q., Dong, J.J., Liu, Y., Xu, X.H., Qin, Q.H., Wang, J.S.*, Macroscopic and microscopic mechanical bhaivors of climbing tendrils. Acta Mechanica Sinica, in press, 2019.
3. Xie, H.M., Song, H.B., Kang, Y.L., Wang, J.S*, In situ experimental measurement of the mechanical properties of carbon-based electrodes during the electrochemical process. Journal of the Electrochemical Society, 165(10), A2069-A2074, 2018.
4. Ma, L.L., Xing, H.D., Li, Q. ,Wang, J.S.*, Qiu, W.*, Raman Stress measurement of crystralline silicon desensitizes shear stress: only on{001} crystal plane. Japanese Journal of Applied Physics, 24, 80307, 2018.
5. Ma T.Y., Wang Y.N., Yuan L., Wang J.S.*, Qin Q.H., Timoshenko beam model for chiral materials. Acta Mechanica Sinica, Acta Mechanica Sinica, 24(3), 2018.
6. Wang J.S.*, Yuan L., Wang L.X., Cui Y.H., Qin Q.H., Numerical study on Hleical fiber fragmentation in chiral biological materials. Transactions of Tianjin University, 1, 1-8, 2017.
7. Zhui H.J., Shimada T., Wang J.S.*, Kitamura T., Feng X.Q., Mechanics of fibrous biological materials with hierarchical chirality. Journal of Applied Mechanics, 83, 101010, 2016.
8. Wang L.X., Cui Y.H., Qin Q.H., Wang H., Wang J.S.*, Helical fiber pull-out in biological materials. Acta Mechanica Solida Sinica, 29 (3), 1-12, 2016.
9. Shimada T., Lich L.V., Ngano K., Wang J.S., Polar superhelices in ferroelectric chiral nanosprings. Scientific Reports, 6, 35199, 2016.
10. Wang H., Lei Y.P., Wang J.S., Qin Q.H., Xiao Y., Theoretical and computational modeling of clustering effect on effective thermal conductivity of cement composites filled with natural hemp fibers. Journal of Composite Materials, 50, 1509-2521, 2016.
11. Luo B., Liu A.P., Wu, H.P., Shen, Q.P., Zhao, T.Y., Wang, J.S., Hollow Au-CuO core-shell nanoparticles with geometry-dependent optical properties as efficient plasmonic photocatalysts under visible light, Langmuir, 32, 3085-3094, 2016.
12. Wang H., Zhao X.J., Wang J.S., Interaction analysis of multiple coated fibers in cement composites by special n-sided interphase/fiber elements. Composites Science and Technology, 118, 117-126, 2015.
13. Zhao Z.L., Zhao H.P, Wang J.S., Zhang Z., Feng X.Q. *, Mechanical properties of carbon nanotube ropes with hierarchical helical structures. Journal of the Mechanics and Physics of Solids, 71, 64-83, 2014.
14. Wang J.S.*, Cui Y.H., Shimada T., Wu H.P., Kitamura T., Unusual winding of helices under tension. Applied Physics Letters, 105, 043702, 2014.
15. Rong Q.Q., Cui Y.H., Shimada T., Kitamura T., Wang J.S.*, Self-shaping of bioinspired chiral composites. Acta Mechanics Sinica, 30(4), 533-539, 2014.
16. Wang J.S. *, Shimada T., Wang G.F., Kitamura T., Effects of chirality and surface stress on bending and buckling of chiral nanowires. Journal of Physics D: Applied Physics, 47, 015302, 2014.
17. Wang J.S.*, Wang G., Feng X.Q.*, Kitamura T., Kang Y.L., Yu S.W., Qin Q.H., Hierarchical chirality transfer in the growth of Towel Gourd tendrils. Scientific Reports, 3, 3102, 2013.
18. Wang J.S.*, Wang G.F., Feng X.Q. and Qin Q.H.: Surface effects on the superelasticity of nanohelice. Journal of Physics-Condensed Matter, 24, 265303 2012.
19. Li Q., Wang J.S., Kang Y.L., Li, Y.L., Qin Q.H., Wang Z.L. and Zhong X.H.: Multi-scale study of the strength and toughness of carbon nanotube fiber materials. Materials Science and Engineering A, 549,118-122, 2012.
20. Rong Q.Q., Wang, J.S.*, Kang Y.L., et al.: A damage model for twisted CNT fiber. Acta Mechanica Solida Sinica, 25(4), 342-347, 2012.
21. Wang, J.S.*, Ye, H.M., Qin, Q.H., Xu, J., Feng, X.Q.*: Anisotropic surface effects on the formation of chiral morphologies of nanomaterials. Proceedings of the Royal Society A, 468, 609-633, 2012.
22. Wang, J.S.*, Feng, X.Q., Xu, J., Qin, Q.H. and Yu, S.W.: Chirality transfer from molecular to morphological scales in quasi-one-dimensional nanomaterials: A continuum model. Journal of Computational and Theoretical Nanoscience, 8(7), 1278-1287, 2011.
23. Wang, J.S.*, He, X.Q. and Qin, Q.H.: Singularity analysis of electro-mechanical fields in angularly inhomogeneous piezoelectric composites wedges. In: IUTAM Bookseries (Springer): 24.153-161., 2011.
24. Wang, J.S.*, Cui, Y.H., Feng, X.Q., Wang, G.F. and Qin, Q.H.: Surface effects on the elasticity of nanosprings. Europhysics Letters, 92, 16002, 2010.
25. Ye, H.M., Wang, J.S., Tang, S., et al.: Surface stress effects on the bending direction and twisting chirality of lamellar crystals of chiral polymer. Macromolecules, 43, 3762-5770, 2010.
26. Qin, Q.H. and Wang, J.S.: Hamiltonian system for analyzing Saint-Venant end effects of piezoelectric strips. Journal of Mechanics and MEMS, 1, 59-71, 2009.
27. Wang, J.S., Feng, X.Q., Wang, G.F. and Yu, S.W.: Twisting of nanowires induced by anisotropic surface stress. Applied Physics Letters, 92, 191901-3, 2008.



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