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A. H. Sofiyev

Die folgende Bibliografie enthält alle in dieser Datenbank indizierten Veröffentlichungen, die mit diesem Namen als Autor, Herausgeber oder anderweitig Beitragenden verbunden sind.

  1. Avey, M. / Fantuzzi, N. / Sofiyev, A. H. (2024): Solution of nonlinear vibration problem of shear deformable multilayer nonhomogeneous orthotropic plates using Poincare-Lindstedt method. In: Composite Structures, v. 340 (Juli 2024).

    https://doi.org/10.1016/j.compstruct.2024.118189

  2. Sofiyev, A. H. (2011): Thermal buckling of FGM shells resting on a two-parameter elastic foundation. In: Thin-Walled Structures, v. 49, n. 10 (Oktober 2011).

    https://doi.org/10.1016/j.tws.2011.03.018

  3. Avey, M. / Fantuzzi, N. / Sofiyev, A. H. (2022): Vibration of laminated functionally graded nanocomposite structures considering the transverse shear stresses and rotary inertia. In: Composite Structures, v. 301 (Dezember 2022).

    https://doi.org/10.1016/j.compstruct.2022.116209

  4. Sofiyev, A. H. (2007): Vibration and stability of composite cylindrical shells containing a FG layer subjected to various loads. In: Structural Engineering and Mechanics, v. 27, n. 3 (Oktober 2007).

    https://doi.org/10.12989/sem.2007.27.3.365

  5. Sofiyev, A. H. (2005): The torsional buckling analysis for cylindrical shell with material non-homogeneity in thickness direction under impulsive loading. In: Structural Engineering and Mechanics, v. 19, n. 2 (Januar 2005).

    https://doi.org/10.12989/sem.2005.19.2.231

  6. Sofiyev, A. H. (2005): The stability of compositionally graded ceramic–metal cylindrical shells under aperiodic axial impulsive loading. In: Composite Structures, v. 69, n. 2 (Juli 2005).

    https://doi.org/10.1016/j.compstruct.2004.07.004

  7. Sofiyev, A. H. (2007): Thermoelastic stability of functionally graded truncated conical shells. In: Composite Structures, v. 77, n. 1 (Januar 2007).

    https://doi.org/10.1016/j.compstruct.2005.06.004

  8. Sofiyev, A. H. (2018): On the solution of the dynamic stability of heterogeneous orthotropic visco-elastic cylindrical shells. In: Composite Structures, v. 206 (Dezember 2018).

    https://doi.org/10.1016/j.compstruct.2018.08.027

  9. Sofiyev, A. H. (2017): The stability analysis of shear deformable FGM sandwich conical shells under the axial load. In: Composite Structures, v. 176 (September 2017).

    https://doi.org/10.1016/j.compstruct.2017.06.022

  10. Sofiyev, A. H. (2016): Thermoelastic stability of freely supported functionally graded conical shells within the shear deformation theory. In: Composite Structures, v. 152 (September 2016).

    https://doi.org/10.1016/j.compstruct.2016.05.027

  11. Sofiyev, A. H. (2014): The vibration and buckling of sandwich cylindrical shells covered by different coatings subjected to the hydrostatic pressure. In: Composite Structures, v. 117 (November 2014).

    https://doi.org/10.1016/j.compstruct.2014.06.025

  12. Sofiyev, A. H. (2009): The vibration and stability behavior of freely supported FGM conical shells subjected to external pressure. In: Composite Structures, v. 89, n. 3 (Juli 2009).

    https://doi.org/10.1016/j.compstruct.2008.08.010

  13. Sofiyev, A. H. / Zerin, Z. / Korkmaz, A. (2008): The stability of a thin three-layered composite truncated conical shell containing an FGM layer subjected to non-uniform lateral pressure. In: Composite Structures, v. 85, n. 2 (September 2008).

    https://doi.org/10.1016/j.compstruct.2007.10.022

  14. Sofiyev, A. H. (2019): Review of research on the vibration and buckling of the FGM conical shells. In: Composite Structures, v. 211 (März 2019).

    https://doi.org/10.1016/j.compstruct.2018.12.047

  15. Najafov, A. M. / Sofiyev, A. H. / Hui, D. / Karaca, Z. / Kalpakci, V. / Ozcelik, M. (2014): Stability of EG cylindrical shells with shear stresses on a Pasternak foundation. In: Steel and Composite Structures, v. 17, n. 4 (Oktober 2014).

    https://doi.org/10.12989/scs.2014.17.4.453

  16. Sofiyev, A. H. / Schnack, E. (2004): The stability of functionally graded cylindrical shells under linearly increasing dynamic torsional loading. In: Engineering Structures, v. 26, n. 10 (August 2004).

    https://doi.org/10.1016/j.engstruct.2004.03.016

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