吴振


的个人主页 http://teacher.nwpu.edu.cn/wuzhen

  被浏览次数:2204

基本信息 The basic information

吴振

航空学院

博士研究生毕业

工学博士

教授

wuzhenhk@nwpu.edu.cn

工作经历 Work Experience

2007年大连理工大学博士

2010年香港大学博士后

2011年大连理工大学兼职博士生导师

2012年沈阳航空航天大学教授

2018年西北工业大学教授

 

教育经历 Education Experience

荣誉获奖 Awards Information

2009年辽宁省百千万人才计划

2010年辽宁省高等学校优秀人才计划

2015年辽宁省青年科技奖‘十大英才’

2015年辽宁省自然科学奖三等奖(负责人)

2016年辽宁省优秀科技工作者

科学研究 Scientific Research

研究方向

    1. 复合材料结构精化高阶理论及高性能有限元

    2. 航空复合材料热固耦合问题

    3. 泛函及变分原理在飞机复合材料结构设计应用

    4. 复合材料细观偶应力理论 

主持的科研项目

  1. 国家自然科学基金,预先满足层间应力连续的C0型整体-局部高阶理论,No. 11272217201301-201612,负责人

  2. 国家自然科学基金,复合材料层合板精化高阶理论和分层分析,No. 10802052200901-201112,负责人

  3. 航空科学基金,XXXX复合材料层合及夹层结构理论和计算,No. 200XXX54003200810-201009,负责人

  4. 辽宁省高等学校优秀人才支持计划,大变形且含界面破坏轻质复合材料精细分析方法及飞机结构设计应用,No. LR2010332010-2012,负责人。

  5. XXX热固耦合问题和强度分析(源于863项目子课题),负责人。



学术成果 Academic Achievements

    自2005年以来在国际期刊上发表SCI期刊学术论文61篇,其中第一作者46JCR分区1区文章33,中科院分区表2区文章30篇,SCI他引408次,单篇最高SCI他引55次。

代表性论文:

1. Wu Zhen*, Ma Rui, Chen Wanji, A C0 three-node triangular element based on preprocessing approach for thick sandwich plates. Journal of Sandwich Structures and Materials  (Accepted)

2. Wu Zhen*, Chen Wanji, An accurate two-node beam element based on the HW variational theorem for multilayered composite beams. Journal of Composite Materials (Accepted)

3. Wu Zhen*, Chen Wanji, Free and forced vibration of laminated composite beams with arbitrary layouts. AIAA J (Accepted).

4. Wu Zhen*, Chen Jian, Chen Wanji, Reddy-type zig-zag model for multilayered composite plate based on the HW variational theorem. Mechanics of Advanced Materials and Structures (Accepted).

5. Wu Zhen*, Yang Zhichun, Chen Wanji, Size-dependent vibration analysis of multilayer composite microbeam based on new modified couple stress theory. International Journal for Multiscale Computational Engineering, 2017; 15(6):459-476.

6. Wu Zhen*, Ma Rui, Chen Wanji, A refined three-node triangular element based on the HW variational theorem for multilayered composite plates. Composite Structures, 2017; 161:132-144.

7. Wu Zhen*, Ma Yuting, Ren Xiaohui, SH Lo, Analysis of functionally graded plates subjected to hygro-thermo-mechanical loads. AIAA J, 2016; 54(11): 3667-3673.

8. Wu Zhen*, Chen Wanji, A global higher-order zig-zag model in terms of the HW variational theorem for multilayered composite beams. Composite Structures, 2016; 158:128-136.

9. Wu Zhen*, Ren Xiaohui, Thermomechanical analysis of multilayered plates in terms of Reddy-type higher-order theory. Mechanics of Advanced Materials and Structures, 2017; 24(14): 1196-1205.

10. Wu Zhen*, Xu Qi, Lu SW, Ren XH, A refined five-unknown model including transverse normal  hygrothermal deformation. Composite Structures. 2016; 152:546-557.

11. Wu Zhen, SH Lo*, Finite element analysis of hygrothermal effects of angle-ply composite plates resting on elastic foundation, Journal of Thermal Stresses, 2016; 39(5):589-605.

12. Wu Zhen, S.H. Lo*, and Ren Xiaohui, A Czig-zag model for the analysis of angle-ply composite thick plates. Composite Structures, 2015; 127:211-223

13. Wu Zhen, S.H. Lo*, Hygro-thermo-mechanical effects on laminated composite plates in terms of a higher-order global-local model, Journal of Thermal Stresses, 2015; 38(5):543-568

14. Wu Zhen*, Wang Ji, Ren Xiaohui, Effects of hygro-thermo-mechanical loading on composite plate resting on elastic foundation. Archive of Applied Mechanics, 2015; 85(12):1825-1846.

15. Wu Zhen, Chen Wanji*Free vibration of laminated composite and sandwich plates using global-local higher-order theory, Journal of Sound and Vibration, 2006; 298: 333-349.

16. Wu Zhen, SH Lo*, Ren Xiaohui, Effects of displacement parameters in zig-zag theories on displacements and stresses of laminated composites, Composite Structures, 2014; 110:276-288.

17. Wu Zhen, Chen Wanji*A quadrilateral element based on refined global-local higher-order theory for thermal/mechanical analysis of laminated plates, International Journal of Solids and Structures. 2007; 44:3187-3217.

18. Wu Zhen, Chen Wanji*Refined global-local higher-order theory and finite element for laminated plates, International Journal Numerical Methods in Engineering, 2007; 69:1627-1670.

19. Wu Zhen*, Tian Li, C0-type global-local higher-order theory including transverse normal thermal strain for laminated composite plates under thermal loading, Composite Structures, 2013; 101: 157-167.

20. Wu Zhen*, Chen Wanji and Ren Xiaohui, An accurate higher-order theory and C0 finite element for free vibration analysis of laminated composite and sandwich plates. Composite Structures, 2010; 92(6):1299-1307.

21. Wu Zhen*, Chen Wanji, A C0-type higher-order theory for bending analysis of laminated composite and sandwich plate. Composite Structures, 2010; 92:653-661.

22. Wu Zhen*, Chen Wanji, Stress analysis of laminated composite plates with a circular hole according to a single-layer higher-order model. Composite Structures, 2009; 90:122-129.

23. Wu Zhen*, Chen Wanji and Ren Xiaohui, Refined global-local higher-order theory for angle-ply laminated plates under thermo-mechanical loads and finite element model, Composite Structures. 2009; 88:643-658.

24. Wu Zhen, Chen Wanji*, A global-local higher order theory for multilayered shells and the analysis of laminated cylindrical shell panels. Composite Structures, 2008; 84:350-361.

25. Wu Zhen*, Chen Wanji, An assessment of several displacement-based theories for the vibration and stability analysis of laminated composite and sandwich beams. Composite Structures, 2008; 84:337-349.

26. Wu Zhen, Y. K. Cheung*, SH Lo and Chen Wanji, Effects of higher-order global-local shear deformations on bending, vibration and buckling of multilayered plates, Composite Structures. 2008; 82:277-289.

27. Wu Zhen, Chen Wanji*, A study of global-local higher-order theory for laminated composite plates. Composite Structures, 2007; 79:44-54.

28. Wu Zhen, Chen Wanji*, Refined triangular element for laminated elastic-piezoelectric plates. Composite Structures, 2007; 78:129-139.

29. Wu Zhen, Chen Wanji*, An efficient higher-order theory and finite element for laminated plates subjected to thermal loading, Composite Structures, 2006;73:99-109.

30. Wu Zhen, Chen Ronggeng, Chen Wanji*, Refined laminated composite plate element based on global-local higher-order shear deformation theory. Composite Structures, 2005; 70:135-152.

31. Wu Zhen, Chen Wanji*, A higher-order displacement model for stress concentration problems in general lamination configurations. Materials & Design, 2009; 30:1458-1467.

32. Wu Zhen*, Chen Wanji, A global-local higher order theory including interlaminar stress continuity and C0 plate bending element. Computational Mechanics, 2010, 45: 387-400.

33. Wu Zhen, Chen Wanji*Buckling analysis of angle-ply composite and sandwich plates by combination of geometric stiffness matrix, Computational Mechanics, 2007; 39(6): 839-848.

34. Wu Zhen, YK Cheung*, SH Lo, Chen Wanji, On the thermal expansion effects in the transverse direction of laminated composite plates by means of a global–local higher-order model, International Journal of Mechanical Science, 2010; 52:970-981.

35. Wu Zhen, Chen Wanji*Thermomechanical buckling of laminated composite and sandwich plates using global-local higher order theory, International Journal of Mechanical Science, 2007; 49:712-721.

36. Wu Zhen, Y. K. Cheung*, SH Lo and Chen Wanji, Thermal stress analysis for laminated plates using actual temperature field, International Journal of Mechanical Science, 2007; 49:1276-1288.

37. Wu Zhen, SH Lo*, YK Cheung, Chen Wanji, A higher order finite element including transverse normal strain for linear elastic composite plates with general lamination configurations. Finite Element in Analysis and Design, 2012; 48:1346-1357.

38. Wu Zhen, Chen Wanji*, A higher-order theory and refined finite element for functionally graded composite laminates, European Journal Mechanics- A/Solids, 2006; 25:447-463.

39. Wu Zhen*, Ren Xiaohui, Finite element analysis of hygrothermal effects on angle-ply composite plates, Journal of Composite Materials. 2016; 50(16): 2215-2233.

40. Wu Zhen*, Lin Kun, An efficient C0 finite element formulation for thermal stress analysis of laminated composite and sandwich plates, Journal of Aerospace Engineering  2015; 28(4).

41. Wu Zhen, SH Lo*, KY Sze, Influence of transverse normal strain and temperature profile on thermoelasticity of sandwiches in terms of the enhanced Reddy’s theory, Journal of Thermal Stresses, 2013; 36: 19-36.

42. Wu Zhen*, Zhu Hong, Chen Wanji, An advanced higher-order theory for laminated composite plates with general lamination angle, Acta Mechanica Sinica, 2011; 27:720-729.



学术文献 Academic Literature

社会兼职 Social Appointments

综合介绍 General Introduction