How to cite this paper
Khudayarov, B., Ruzmetov, K., Turaev, F., Vaxobov, V., Hidoyatova, M., Mirzaev, S & Abdikarimov, R. (2020). Numerical modeling of nonlinear vibrations of viscoelastic shallow shells.Engineering Solid Mechanics, 8(3), 199-204.
Refrences
Badalov, F. B., Khudayarov, B. A., & Abdukarimov, A. (2007). Effect of the hereditary kernel on the solution of linear and nonlinear dynamic problems of hereditary deformable systems. Journal of Machinery Manufacture and Reliability, 36(4), 328-335.
Dowell, E. H. (1970). Panel flutter-A review of the aeroelastic stability of plates and shells. AIAA Journal, 8(3), 385-399.
Fazilati, J. (2018). Panel flutter of curvilinear composite laminated plates in the presence of delamination. Journal of Composite Materials, 52(20), 2789-2801.
Khudayarov, B. A. (2019). Modeling of supersonic nonlinear flutter of plates on a visco-elastic foundation. Advances in Aircraft and Spacecraft Science, 6(3), 257-272.
Khudayarov, B. A. (2008). Numerical study of the dependence of the critical flutter speed and time of a plate on rheological parameters. International Applied Mechanics, 44(6), 676-682.
Khudayarov, B. A., & Turaev, F. Z. (2019). Nonlinear supersonic flutter for the viscoelastic orthotropic cylindrical shells in supersonic flow. Aerospace Science and Technology, 84, 120-130.
Khudayarov, B. A. (2019). Modeling of supersonic nonlinear flutter of plates on a visco-elastic foundation. Advances in Aircraft and Spacecraft Science, 6(3), 257-272.
Khudayarov, B.A., Turayev, F.Zh. (2016). Numerical simulation of nonlinear oscillations of a viscoelastic pipeline with fluid. Vestnik of Tomsk State University. Mathematics and Mechanics, 5(43), 90–98. DOI:10.17223/19988621/43/10
Khudayarov, B. A., & Turaev, F. Z. (2019). Mathematical simulation of nonlinear oscillations of viscoelastic pipelines conveying fluid. Applied Mathematical Modelling, 66, 662-679.
Merrett, C. G., & Hilton, H. H. (2010). Elastic and viscoelastic panel flutter in incompressible, subsonic and compressible flows. Journal of Aeroelasticity and Structural Dynamics, 2(1), 53-80.
Vedeneev, V. V. (2012). Panel flutter at low supersonic speeds. Journal of Fluids and Structures, 29, 79-96.
Dowell, E. H. (1970). Panel flutter-A review of the aeroelastic stability of plates and shells. AIAA Journal, 8(3), 385-399.
Fazilati, J. (2018). Panel flutter of curvilinear composite laminated plates in the presence of delamination. Journal of Composite Materials, 52(20), 2789-2801.
Khudayarov, B. A. (2019). Modeling of supersonic nonlinear flutter of plates on a visco-elastic foundation. Advances in Aircraft and Spacecraft Science, 6(3), 257-272.
Khudayarov, B. A. (2008). Numerical study of the dependence of the critical flutter speed and time of a plate on rheological parameters. International Applied Mechanics, 44(6), 676-682.
Khudayarov, B. A., & Turaev, F. Z. (2019). Nonlinear supersonic flutter for the viscoelastic orthotropic cylindrical shells in supersonic flow. Aerospace Science and Technology, 84, 120-130.
Khudayarov, B. A. (2019). Modeling of supersonic nonlinear flutter of plates on a visco-elastic foundation. Advances in Aircraft and Spacecraft Science, 6(3), 257-272.
Khudayarov, B.A., Turayev, F.Zh. (2016). Numerical simulation of nonlinear oscillations of a viscoelastic pipeline with fluid. Vestnik of Tomsk State University. Mathematics and Mechanics, 5(43), 90–98. DOI:10.17223/19988621/43/10
Khudayarov, B. A., & Turaev, F. Z. (2019). Mathematical simulation of nonlinear oscillations of viscoelastic pipelines conveying fluid. Applied Mathematical Modelling, 66, 662-679.
Merrett, C. G., & Hilton, H. H. (2010). Elastic and viscoelastic panel flutter in incompressible, subsonic and compressible flows. Journal of Aeroelasticity and Structural Dynamics, 2(1), 53-80.
Vedeneev, V. V. (2012). Panel flutter at low supersonic speeds. Journal of Fluids and Structures, 29, 79-96.