• 姓名(中文/汉语拼音)王建山
  • 职称副教授 硕导、博导
  • 职务
  • 专业固体力学
  • 所在系、所力学系
  • 通讯地址天大机械工程学院力学系,300072
  • 电子信箱wangjs@tju.edu.cn
  • 办公室电话
  • 传真
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:
2012.11-2014.11 日本京都大学机械工程科学系, JSPS研究员
2009.5- 天津大学机械学院力学系,讲师、副教授
2007.4-2009.5 清华大学航院工程力学系 博士后
2007.12-2008.2 澳大利亚国立大学工程系 访问学者
2006.7-2006.11 香港城市大学建筑系 研究助理
2005.4-2005.10 澳大利亚国立大学工程系 访问学者
主要研究方向:
手性生物材料的力学和仿生
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)
主要学术兼职:
中国力学学会固体力学专业委员会“生物材料与仿生专业组”成员(2012- )
主要学术成就、奖励及荣誉:
2012-2014 日本学术振兴会JSPS研究奖 (JSPS Fellowship)
主要科研项目及角色:
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
天津大学青年教师培育基金(自主创新基金):微纳米手性材料的力学研究(2010.01-2011.06), 负责人
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:
Wang J.S.* et al.: Hierarchical chirality transfer in biological materials. Submitted, 2015.

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

Wang J.S.*, Shimada T., Wang G. F., Kitamura T., Effect of chirality and surface stress on the bending and buckling of chiral nanowires. Journal of Physics D: Applied Physics., 47,015302, 2014.

Zhao Z.L, Zhao H.P., Wang J.S., Zhang Z., Feng X.Q., Mechanical properties of carbo nanotube ropes with hierarchical helical structures. Journal of the Mechanics and Physics of Solids. 71,64-83, 2014.

Rong Q.Q., Cui Y.H., Shimada T, Wang J.S.*, Kitamura T., Self-shaping of bioinspired chiral composites. Acta Mechanics Sinica., 30(4),533-539, 2014.

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.

Wang J.S.*, Wang G.F., Feng X.Q. and Qin Q.H. : Surface effects on the superelasticity of nanohelices. Journal of Physics: Condensed Matter, 24, 265303, 2012.

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.

Rong Q.Q., Wang J.S.*, Kang Y.L., Li Y.L. and Qin Q.H.: A damage mechanics model for twisted CNT fiber. Acta Mechanica Solida Sinica,25(4), 342-347, 2012.

Wang J.S.*, Ye H.M., Qin Q.H., Xu J. and Feng X.Q*.: Anisotropic surface effects on the formation of chiral morphologies of nanomaterials. Proceedings of the Royal Society A, 468, 609-633, 2012.

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.

Wang J.S.*, He X.Q. and Qin Q.H.: Singularity analysis of electro-mechanical fields in angularly inhomogeneous piezoelectric composites wedges. In: IUTAM Book series: Proceedings of the IUTAM Conference on Multiscale Modelling of Fatigue, Damage and Fracture in Smart Materials. Eds Kuna M. and Ricoeur A., Springer.Vol.24, 153-161, 2011.

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, 160021-6, 2010.

Ye H.M., Wang J.S., Tang, S., Xu J., Feng X.Q., Guo B.H., Xie X.M., Zhou J.J., Li L., Wu Q. and Chen G.Q.: Surface stress effects on the bending direction and twisting chirality of lamellar crystals of chiral polymer. Macromolecules, 43, 3762-5770, 2010.

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.

Wang J.S., Feng X.Q., Wang G.F. and Yu S.W.: Twisting of nanowire induced by anisotropic surface stress. Applied Physics Letters, 92, 191901-3, 2008.

Wang J.S. and Qin Q.H.: Symplectic model for piezoelectric wedges and its application to analysis of electroelastic singularities. Philosophical Magazine, 87, 225-251, 2007.

He X.Q., Wang J.S. and Qin Q.H.: Saint-Venant decay analysis of FGPM laminates and dissimilar piezoelectric laminates. Mechanics of Materials, 39, 1053-1065, 2007.

Wang J.S. and Qin, Q. H.: Debonding criterion for the piezoelectric fibre push-out test. Philosophical Magazine Letters, 86, 123-136, 2006.

Qin Q.H., Wang J.S. and Li, X.L.: Effect of elastic coating on the penny-shaped crack in piezoelectric fibre. Composite Structures, 75, 465-471, 2006.

Qin Q.H., Wang J.S. and Kang, Y.L.: A theoretical model for electroleastic analysis in piezoelectric fibre push-out test. Archive of Applied Mechanics, 75, 527-540, 2006.