Xiao-Ting He
Professor, Ph.D
School of Civil Engineering, Chongqing University, Chongqing, 400045, China
Fax: 0086-23-65123511
Email: hexiaoting@cqu.edu.cn
Education
PH.D. 12/2007, Chongqing University
M.S. 12/2001, Chongqing University
B.S. 7/1994, Chongqing Jianzhu University
Career Details
Professor, Chongqing University (Sep 2015)
Associate Professor, Chongqing University (Sep 2009- Sep 2015)
Lecturer, Chongqing University (Sep 2000- Sep 2009)
Research interests
Elasticity theory of different moduli;
Structural nonlinear problems;
Mechanical problems in construction;
Perturbation method;
Plates and shells;
Research Projects
National Natural Science Foundation of China (No.11572061): Multi-parameter perturbation method and its application to multi-field coupling of functionally gradient piezoelectric materials and structures (Principle Investigator, Jan 2016-Dec 2019)
Research Projects of Foundations and Frontiers of Chongqing City (No. cstc2013jcyjA30012): Deformation study of flexible thin-layered structures with different moduli in tension and compression (Principle Investigator, Jul 2013-Jun 2016)
Latest Publications
1. He XT, Yin JM, Luo MW, Chang H, Sun JY. Snap-through buckling of elliptic paraboloid thin shallow shells with bimodular effect. Structures, 2025, 80: 110060.
2. He XT, Ran JS, Wang X, Sun JY. Large static deformation of thin cylindrical shells with different moduli in tension and compression: An application in pressure hulls. Marine Structures, 2025, 103: 103859.
3. He XT, Chen ZP, Sun JY. Elastic-plastic bending analysis of beams with tension-compression asymmetry: bimodular effect and strength differential effect. Archives of Applied Mechanics, 2025, 95: 54.
4. He XT, Luo MW, Feng HH, Sun JY. Large deflection analysis of bimodular functionally graded truncated thin conical shells under mechanical and thermal loads. Materials, 2025, 18: 362.
5. He XT, Wang XG, Sun JY. Application of perturbation-variation method in large deformation bimodular cylindrical shells: A comparative study of bending theory and membrane theory. Applied Mathematical Modelling, 2024, 129: 448–478.
6. He XT, Wang X, Chang H, Sun JY. Large deformation problem of hyperbolic shallow shells with bimodular effect: A perturbation-variation method. ZAMM-Journal of Applied Mathematics and Mechanics, 2024, 144: e202300864.
7. Pang B, He XT, Sun JY. Large deformation analysis of functionally graded revolutionary shallow thin shells with bi-modular effect: Snap-through buckling under different boundary constraints. Thin-Walled Structures, 2024, 195: 111425.
8. He XT, Chang H, Sun JY. Axisymmetric large deformation problems of thin shallow shells with different moduli in tension and compression. Thin-Walled Structures, 2023, 182: 110297.
9. He XT, Ai JC, Li ZY, Peng DD, Sun JY. Nonlinear large deformation problem of rectangular thin plates and its perturbation solution under cylindrical bending: Transform from plate/membrane to beam/cable. ZAMM-Journal of Applied Mathematics and Mechanics, 2022, 102: e202100306.
10. He XT, Yang ZX, Li, YH, Li X, Sun JY. Application of multi-parameter perturbation method to functionally-graded, thin, circular piezoelectric plates. Mathematics, 2020, 8: 342.
11. He XT, Li X, Yang ZX, Liu GH, Sun JY. Application of biparametric perturbation method to functionally graded thin plates with different moduli in tension and compression. ZAMM-Journal of Applied Mathematics and Mechanics, 2019, 99: e201800213.
12. He XT, Wang YZ, Shi SJ, Sun JY. An electroelastic solution for functionally graded piezoelectric material beams with different moduli in tension and compression. Journal of Intelligent Material Systems and Structures, 2018, 29: 1649–1669.
13. He XT, Li WM, Sun JY, Wang ZX. An elasticity solution of functionally graded beams with different moduli in tension and compression. Mechanics of Advanced Materials and Structures, 2018, 25: 143–154.
14. He XT, Cao L, Wang YZ, Sun JY, Zheng ZL. A biparametric perturbation method for the Foppl-von Karman equations of bimodular thin plates. Journal of Mathematical Analysis and Applications, 2017, 455: 1688–1705.
15. He XT, Pei XX, Sun JY, Zheng ZL. Simplified theory and analytical solution for functionally graded thin plates with different moduli in tension and compression. Mechanics Research Communications, 2016, 74: 72–80.
16. He XT, Sun JY, Wang ZX, Chen Q, Zheng ZL. General perturbation solution of large-deflection circular plate with different moduli in tension and compression under various edge conditions. International Journal of Non-linear Mechanics, 2013, 55: 110–119.
17. He XT, Cao L, Li ZY, Hu XJ, Sun JY. Nonlinear large deflection problems of beams with gradient: A biparametric perturbation method. Applied Mathematics and Computation, 2013, 219: 7493–7513.
18. He XT, Chen Q, Sun JY, Zheng ZL. Large-deflection axisymmetric deformation of circular clamped plates with different moduli in tension and compression. International Journal of Mechanical Sciences, 2012, 62: 103–110.
19. He XT, Zheng ZL, Sun JY, Li YM, Chen SL. Convergence analysis of a finite element method based on different moduli in tension and compression. International Journal of Solids and Structures, 2009, 46: 3734–3740.
20. He XT, Chen SL. Biparametric perturbation solutions of large deflection problem of cantilever beams. Applied Mathematics and Mechanics (English Edition), 2006, 27: 453–460.
