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姓名: 郭建剛
性別:
英文名: Guo Jiangang
人才稱號:
職稱: 教授, 博士生導師
職務: 教師 專業: 固體力學
所在機構: 力學系 個人主頁:
郵箱: guojg@tju.edu.cn 辦公地點: 天津大學北洋園校區36樓518
傳真: 辦公電話:
主要學歷: 1995.09-2000.07 太原理工大學工程力學專業,本科生,獲工學學士;
2000.09-2003.06 太原理工大學固體力學專業,碩士研究生,獲工學碩士;
2003.09-2007.06 中科院力學研究所固體力學專業,博士研究生,獲理學博士。

主要學術經歷: 2007.07-2009.07 天津大學力學系,講師;
2009.07-2017.06 天津大學力學系,副教授、博/碩導;
2011.12-2012.12 美國Brown大學,訪問學者;
2017.07-至今 天津大學力學系,教授、博/碩導。

主要研究方向: 微/納尺度力學;
表/界面力學;
復合材料力學。

主要講授課程: 工程力學(本科生48學時);
材料力學(本科生80學時);
現代固體力學及其應用(本科生32學時)。

主要學術兼職: 中國力學學會微納米力學工作組委員

主要學術成就: 2014年,項目“納微系統中表面效應的物理力學研究”獲得國家自然科學二等獎(R5)

主要科研項目: 1. 國家自然科學基金項目(11872268),石墨烯斷裂性能及其膜基結構界面脫粘演化的多尺度模型及實驗表征,63萬,項目負責人,在研。
2. 國家自然科學基金項目(11372216),石墨烯粘著和摩擦性能的多尺度模型及精細表征,80萬,項目負責人,結題。
3. 國家自然科學基金項目(10802057),低維納米結構彈性性能的尺寸效應研究,23萬,項目負責人,結題。
4. 國家自然科學基金項目(11502167),碳納米管/石墨烯功能復合材料的界面力學行為及多場耦合下力/熱/電學性能的多尺度表征,29.5萬,天津大學方面負責人,在研。
5. 國家重點基礎研究發展計劃(973項目)子課題(2012CB937501),納米材料及結構力學行為的表征理論和參量確定,42萬,天津大學方面負責人,結題。


代表性論著: 1. Qiu Wei, Zhang Qi-Peng, Li Qiu, Xu Chao-Chen, Guo Jian-Gang*. Experimental study on interfacial mechanical behavior of single-layer monocrystalline graphene on a stretchable substrate, Acta Physica Sinica, 2017, 66(16): 166801.
2. Cui Zhen, Guo Jian-Gang*.Theoretical investigations of the interfacial sliding and buckling of graphene on a flexible substrate, AIP Advances, 2016, 6(12): 125110.
3. Yu Yan-Zi, Guo Jian-Gang*. Static and dynamic theoretical analyses of a scanning tip on suspended graphene surface, Journal of Applied Physics, 2016, 120(6): 064303.
4. Xu Na, Guo Jian-Gang*, Cui Zhen. The influence of tilt grain boundaries on the mechanical properties of bicrystalline graphene nanoribbons, Physica E: low-dimensional systems & nanostructures, 2016, 84: 168-174.
5. Yu Yan-Zi, Guo Jian-Gang*, Zhou Li-Jun. Theoretical investigation on the adsorption and diffusion of lithium-ion on and between graphene layers with size and defect effects, Adsorption Science & Technology, 2016, 34(2-3): 212-226.
6. Wang Chen-Jiang, Guo Jian-Gang*. Theoretical investigation on adhesion energy of graphene nanofilm debonding from substrate. Journal of Computational and Theoretical Nanoscience, 2015, 12 (10): 3792-3800.
7. Yu Yan-Zi, Guo Jian-Gang*, Kang Yi-Lan. An analytical model for adsorption and diffusion of atoms/ions on graphene surface, Journal of Nanomaterials, 2015, 2015: 382474.
8. Xu Chaochen, Xue Tao, Guo Jiangang*, Qin Qinghua, Wu Sen, Song Haibin, Xie Haimei. An experimental investigation on the mechanical properties of the interface between large-sized graphene and a flexible substrate, Journal of Applied Physics, 2015, 117: 164301.
9. Wang Chen-Jiang, Guo Jian-Gang*. Numerical investigation on adhesion properties of graphene nanofilm debonding from substrate. Materials Research Innovations, 2015, 19: S1 403-406.
10. 周麗軍, 郭建剛*, 亢一瀾. 碳納米管增強聚合物復合材料的界面脫粘及應力分布. 光學 精密工程, 2014, 22(9):2458-2464.
11. Wang Shao-Pei, Guo Jian-Gang*, Jiang Yan. The Size- and Chirality-Dependent Elastic Properties of Graphene Nanofilms. Journal of Computational and Theoretical Nanoscience, 2013, 10: 250-256.
12. Wang Shao-Pei, Guo Jian-Gang*, Zhou Li-Jun. Influence of Stone-Wales defects on elastic properties of graphene nanofilms. Physica E: low-dimensional systems & nanostructures, 2013, 48: 29-35.
13. Guo Jian-Gang*, Zhou Li-Jun, Kang Yi-Lan. Chirality-dependent anisotropic elastic properties of a monolayer graphene nanosheet. Journal of Nanoscience and Nanotechnology,2012, 12: 3159-3164.
14. Zhou Li-Jun, Kang Yi-Lan, Guo Jian-Gang*. Theoretical model of double-walled carbon nanotube pullout from a composite matrix. Science China-Physics Mechanics & Astronomy, 2012, 55(6): 1004-1009.
15. Zhou Li-Jun, Kang Yi-Lan, Guo Jian-Gang*. Phenomenological model of interfacial stress transfer in carbon nanotube reinforced composites with van der Waals effects. Polymer Composites, 2011, 32 (7): 1069-1076.
16. Guo Jian-Gang*, Zhou Li-Jun, Zhao Ya-Pu. Instability analysis of torsional MEMS/NEMS actuators under capillary force. Journal of Colloid and Interface Science, 2009, 331(2): 458-462.
17. Zhou Li-Jun, Guo Jian-Gang*, Zhao Ya-Pu. Size- and temperature-dependent thermal expansion coefficient of a nanofilm, Chinese Physics Letters, 2009, 26(6): 066201.
18. Guo Jian-Gang, Zhou Li-Jun, Zhao Ya-Pu. Size-dependent elastic modulus and fracture toughness of the nanofilm with surface effects. Surface Review and Letters, 2008, 15(5): 599-603.
19. Guo Jian-Gang, Zhao Ya-Pu. The size-dependent bending elastic properties of nanobeam with surface effects. Nanotechnology, 2007, 18: 295701.
20. Guo Jian-Gang, Zhao Ya-Pu. The surface- and size-dependent elastic Moduli of nanostructures. Surface Review and Letters, 2007, 14(3): 1-4.
21. Guo Jian-Gang, Zhao Ya-Pu. Dynamic stability of electrostatic torsional actuators with van der Waals effect. International Journal of Solids and Structures, 2006, 43: 675-685.
22. Guo Jian-Gang, Zhao Ya-Pu. The Size-Dependent Elastic Properties of nanocrystals with surface effects. Journal of Applied Physics, 2005, 98: 074306.
23. Guo Jian-Gang, Zhou Li-Jun, Zhang Shan-Yuan. Geometrical nonlinear waves in finite deformation elastic rods. Applied Mathematics and Mechanics, 2005, 26(5): 667-674.
24. Guo Jian-Gang, Zhao Ya-Pu. Influence of van der Waals and Casimir forces on electrostatic torsional actuators. Journal of Microelectromechanical Systems, 2004, 13(6): 1027-1035.


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