References in zbMATH (referenced in 64 articles , 1 standard article )

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  1. Li, Mengzhen; Yan, Renjun; Guedes Soares, C.: Free vibration of advanced composite plates using a new higher order shear deformation theory (2021)
  2. Liu, Tao; Li, Zhi-Min; Qiao, Pizhong: The closed-form solutions for buckling and postbuckling behaviour of anisotropic shear deformable laminated doubly-curved shells by matching method with the boundary layer of shell buckling (2021)
  3. Punera, Devesh: The effect of agglomeration and slightly weakened CNT-matrix interface on free vibration response of cylindrical nanocomposites (2021)
  4. Sobhani Aragh, B.; Borzabadi Farahani, E.; Xu, B. X.; Ghasemnejad, H.; Mansur, W. J.: Manufacturable insight into modelling and design considerations in fibre-steered composite laminates: state of the art and perspective (2021)
  5. Vu, Tan-Van; Nguyen, H. T. Tai; Nguyen-Van, Hieu; Nguyen, Trong-Phuoc; Curiel-Sosa, Jose L.: A refined quasi-3D logarithmic shear deformation theory-based effective meshfree method for analysis of functionally graded plates resting on the elastic foundation (2021)
  6. Yang, Zhenghao; Oterkus, Erkan; Oterkus, Selda: A state-based peridynamic formulation for functionally graded Kirchhoff plates (2021)
  7. Karami, Behrouz; Janghorban, Maziar: On the mechanics of functionally graded nanoshells (2020)
  8. Mo, Tian-Jing; Huang, Jun; Li, Shuang-Bei; Wu, Hai: A spline finite point method for nonlinear bending analysis of FG plates in thermal environments based on a locking-free thin/thick plate theory (2020)
  9. Su, Zhu; Wang, Lifeng; Sun, Kaipeng; Sun, Jie: Transverse shear and normal deformation effects on vibration behaviors of functionally graded micro-beams (2020)
  10. Amabili, Marco; Breslavsky, I. D.; Reddy, J. N.: Nonlinear higher-order shell theory for incompressible biological hyperelastic materials (2019)
  11. Nguyen, Trung-Kien; Nguyen, Van-Hau; Chau-Dinh, Thanh: Cell- and node-based smoothing MITC3-finite elements for static and free vibration analysis of laminated composite and functionally graded plates (2019)
  12. Sheng, G. G.; Wang, X.: Nonlinear forced vibration of size-dependent functionally graded microbeams with damping effects (2019)
  13. Wang, Wei; Li, Sen; Yao, Lin-Quan; Yi, Shi-Chao: Pseudo-three-dimensional analysis for functionally graded plate integrated with a piezoelectric fiber reinforced composite layer (2019)
  14. Zhou, Liming; Nie, Bin; Ren, Shuhui; Liu, Ruiyao; Li, Xiaolin; Xue, Bing: Coupling magneto-electro-elastic cell-based smoothed radial point interpolation method for static and dynamic characterization of MEE structures (2019)
  15. Zozulya, V. V.: Higher order theory of electro-magneto-elastic plates and shells (2019)
  16. Amabili, Marco: Nonlinear vibrations and stability of laminated shells using a modified first-order shear deformation theory (2018)
  17. Arbind, A.; Reddy, J. N.: A general higher-order one-dimensional model for large deformation analysis of solid bodies (2018)
  18. Faghidian, S. Ali: On non-linear flexure of beams based on non-local elasticity theory (2018)
  19. Faghidian, S. Ali: Reissner stationary variational principle for nonlocal strain gradient theory of elasticity (2018)
  20. Frikha, A.; Zghal, S.; Dammak, F.: Finite rotation three and four nodes shell elements for functionally graded carbon nanotubes-reinforced thin composite shells analysis (2018)

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