参与由陈硕老师带领的上海市“飞行器力学与控制”Ⅳ类高峰学科创新团队，团队研究方向为“先进气动布局设计”. 

目前在研一项国家自然科学基金项目“含梯度防护层的丝束变角度复合材料结构的雷击损伤机理”(2025-2028). 

• 2025-2028，国家自然科学基金“含梯度防护层的丝束变角度复合材料结构的雷击损伤机理”
  
• 2021-2024，国家自然科学基金“含缺陷的丝束变角度复合材料结构的气动弹性稳定性分析与材料剪裁”
• 2018-2021，国家自然科学基金“丝束变角度复合材料板壳的热力耦合屈曲分析及材料剪裁”
• 2014-2017，国家自然科学基金“金属基功能梯度材料结构的弹塑性分析与材料剪裁问题研究”
• 2011-2013，国家自然科学基金“基于自动铺丝的复合材料变刚度结构的分析与优化设计”
• 2012-2013，教育部留学回国人员科研启动基金“功能梯度材料与结构的优化设计”
• 2008-2010，高等学校博士学科点专项科研基金“复合材料充气结构的力学问题研究”
• 2006-2007，上海市自然科学基金“大型轻质充气太空结构的力学问题研究”

1. [1]    Guojun Nie, Huizhong Li,and Xiaodong Chen. Nonlinear thermal flutter of Variable Angle Tow curvedpanels with elastically restrained edges in supersonic airflow by generalizedGalerkin method. Journal of Composite Materials, 2025, 59(6): 835-851.

   [2]    RC Batra, Guojun Nie. Material tailoring of linearly elastic functionally gradedrubberlike cylinders under combined radial expansion, extension and twistingdeformations. Journal of Elasticity, 2025, 157:60.

   [3]    GuojunNie, R C Batra. Analytical solutions and material tailoring for combined radialexpansion and twisting of functionally graded orthotropic hollow cylinders.Thin-Walled Structures, 2024, 202:112115.

   [4]    GuojunNie, Xiaodong Chen. An analytical solution for thermomechanical buckling ofvariable angle tow composite laminates with elastically restrained edges.Mechanics of Advanced Materials and Structures, 2024, 31(26): 8583-8597.

   [5]    XiaodongChen, Guojun Nie. On the nonlinear post-critical responses of VAT sandwichbeams with variable stiffness composite skins under axial compression. EuropeanJournal of Mechanics / A Solids, 2023, 97:104862.

   [6]    GuojunNie, Han Hu, Xiaodong Chen. A complex Fourier series solution for buckling of VATcomposite laminates with elastically restrained edges. Composite Structures, 2022, 279:114847.

   [7]    GuojunNie, Xiaodong Chen. Analytical solution for buckling of VAT composite laminateswith elastic restraints on two opposite edges. Meccanica, 2022, 57(8):2085-2099.

   [8]    XiaodongChen, Guojun Nie, Zhangming Wu. Global buckling and wrinkling of variable angletow composite sandwich plates by a modified extended high-order sandwich plate theory. Composite Structures, 2022, 292:115639.

   [9]    XiaodongChen, Guojun Nie, Xuefei Yang. Thermal postbuckling analysis of variable angletow composite cylindrical panels. Journal of Thermal Stresses, 2021, 44(7):850-882.

   [10] XiaodongChen, Guojun Nie. Nonlinear thermal flutter analysis of variable angle towcomposite curved panels in supersonic airflow. Composite Structures, 2021,277:114610.

   [11] TC Yu, G J Nie, Z Zhong, F Y Chu, X J Cao. Analytical solution of the bendingproblem for rectangular orthotropic plates with a variable in-plane stiffness. Mechanics of Composite Materials, 2021, 57(1):115-124.

   [12] ZhengZhong, Guojun Nie. Analytical or semi-analytical solutions of functionally gradedmaterial structures. Science Press and Springer Nature Singapore Pte Ltd, 2021.

   [13] XiaodongChen, Guojun Nie. Prebuckling and buckling analysis of moderately thick variableangle tow composite plates considering the extension-shear coupling. CompositeStructures, 2020, 242:112093.

   [14] GuojunNie, Han Hu, Zheng Zhong, Xiaodong Chen. A complex Fourier series solution forfree vibration of arbitrary straight-sided quadrilateral laminates with variableangle tows. Mechanics of Advanced Materials and Structures, 2020, 1807660.

   [15] XiaodongChen, Guojun Nie, Zhangming Wu. Application of Rayleigh-Ritz formulation tothermomechanical buckling of variable angle tow composite plates with generalin-plane boundary constraint. International Journal of Mechanical Sciences, 2020, 187:106094.

   [16] XiaodongChen, Guojun Nie, Zhangming Wu. Non-uniform torsion analysis of functionallygraded beams with solid or thin-walled section using hierarchical Legendreexpansion functions. Mechanics of Advanced Materials and Structures, 2020,1851828.

   [17] FeiLi, G J Nie. Thermo-mechanical buckling analysis of symmetric VAT compositelaminates with temperature-dependent material properties. Thin-WalledStructures, 2019, 140:263-271.

   [18] GJ Nie, Anup Pydah, R C Batra. Torsion of bi-directional functionally gradedtruncated conical cylinders. Composite Structures, 2019, 210:831-839.

   [19] GJ Nie, R C Batra. Reducing stress concentration factor by strengtheningcircular hole with functionally graded incompressible material layer.Thin-Walled Structures, 2019,144:106223.

   [20] XiaodongChen, Zhangming Wu, Guojun Nie, Paul Weaver. Buckling analysis of variableangle tow composite plates with a through-the-width or an embedded rectangulardelamination. International Journal of Solids and Structures, 2018,138:166-180.

   [21] XiaodongChen, Guojun Nie, Zhangming Wu. Dynamic instability of variable angle towcomposite plates with delamination. Composite Structures, 2018, 187:294-307.

   [22] GJ Nie, Z Zhong and R C Batra. Material tailoring for reducing stressconcentration factor at a circular hole in a functionally graded material (FGM)panel. Composite Structures, 2018,205:49-57.

   [23] RC Batra, G J Nie. Torsional deformations and material tailoring of orthotropicbi-directional FGM hollow truncated conical cylinders with curved lateralsurfaces. International Journal of Engineering Science, 2018, 133:336-351.

   [24] PingTan, G J Nie. Free and forced vibration of variable stiffness composite annularthin plates with elastically restrained edges. Composite Structures, 2016,149:398-407.

   [25] YingyaLu, Juntao Shi, Guojun Nie, Zheng Zhong. An elasticity solution fortransversely isotropic, functionally graded circular plates. Mechanics ofAdvanced Materials and Structures, 2015, 23(4):451-457.

   [26] GuojunNie, Zheng Zhong. Closed-form solutions for elastoplastic pure bending of acurved beam with material inhomogeneity. Acta Mechanica Solida Sinica, 2014,27(1):54- 64.

   [27] Tian-chongYu, Guo-jun Nie, Zheng Zhong, Fu-yun Chu. Analytical solution of rectangularplate within-plane variable stiffness. Applied Mathematics and Mechanics(EnglishEdition), 2013, 34(4):395-404.

   [28] GJ Nie, Zheng Zhong, Shuping Chen. Analytical solution for a functionally gradedbeam with arbitrary graded material properties. Composites Part B: Engineering,2013, 44:274-282.

   [29] GuojunNie, Zheng Zhong. Exact solutions for elastoplastic stress distribution infunctionally graded curved beams subjected to pure bending. Mechanics ofAdvanced Materials and Structures, 2012, 19(6):474-484.

   [30] GJ Nie, Z Zhong, R C Batra. Material tailoring for orthotropic elastic rotatingdisks. Composites Science and Technology, 2011, 71(3):406-414.

   [31] GJ Nie, Z Zhong, R C Batra. Material tailoring for functionally graded hollowcylinders and spheres. Composites Science and Technology, 2011, 71(5):666-673.

   [32] RC Batra, G J Nie. Analytical solutions for functionally graded incompressibleeccentric and non-axisymmetrically loaded circular cylinders. CompositeStructures, 2010,92(5):1229-1245.

   [33] GJ Nie, R C Batra. Exact solutions and material tailoring for functionallygraded hollow circular cylinders. Journal of Elasticity, 2010, 99(2):179-201.

   [34] GuojunNie, Zheng Zhong. Dynamic analysis of multi-directional functionally gradedannular plates. Applied Mathematical Modelling, 2010, 34(3):608-616.

   [35] GJ Nie, R C Batra. Static deformations of functionally graded polar-orthotropiccylinders with elliptical inner and circular outer surfaces. Composites Scienceand Technology, 2010,70(3):450-457.

   [36] GJ Nie, R C Batra. Stress analysis and material tailoring in isotropic linearthermoelastic incompressible functionally graded rotating disks of variablethickness. Composite Structures, 2010, 92(3):720-729.

   [37] GJ Nie, R C Batra. Material tailoring and analysis of functionally gradedisotropic and incompressible linear elastic hollow cylinders. CompositeStructures, 2010, 92(2):265-274.

   [38] GJ Nie, Z Zhong. Vibration analysis of functionally graded annular sectorialplates with simply supported radial edges. Composite Structures, 2008,84(2):167-176.

   [39] AM Yu, G J Nie. Tangential stresses in two-material curved beams. Meccanica, 2007,42(3):307-311.

   [40] GuojunNie, Zheng Zhong. Axisymmetric bending of two-directional functionally gradedcircular and annular plates. Acta Mechanica Solida Sinica, 2007, 20(4):289-295.

   [41] GJ Nie, Z Zhong. Semi-analytical solution for three-dimensional vibration offunctionally graded circular plates. Computer Methods in Applied Mechanics andEngineering, 2007, 196(49-52):4901-4910. 

仲政，聂国隽. 功能梯度梁板结构响应的解析与半解析求解方法研究，上海市自然科学二等奖(2022年). 

• 上海市力学学会第13届、第14届常务理事
• 《力学季刊》编委、编辑部主任