On the vibration and stability behaviors of heterogeneous- CNTRC-truncated conical shells under axial load in the context of FSDT: Fid-Bau Portal

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On the vibration and stability behaviors of heterogeneous- CNTRC-truncated conical shells under axial load in the context of FSDT

Sofiyev, A.H.

Abstract The vibration and stability of heterogenous (HT) carbon nanotube reinforced composite truncated conical shells (HT-CNTRC-TCSs) are studied. The main feature of this study is to expand the first order shear deformation theory to the HT-CNTRC-TCSs to obtain an analytical solution of vibration and stability problems. The dynamic stability equations of HT-CNTRC-TCSs are solved by applying Galerkin method. The expressions for the frequency and the critical axial load of HT-CNTRC-TCSs are obtained. In numerical calculations, the influences of heterogeneity and volume fraction of CNTs on the frequency and critical axial load of HT-CNTRC-TCSs are studied in detail.

Highlights • Vibration and Stability of HT-CNTRC cones under axial load using FSDT are investigated. • The basic equations of HT-CNTRC-CSs are derived and solved by using Galerkin method. • Formulas for critical axial load and frequency of HT-CNTR-CSs based on FSDT are obtained. • Analysis is performed for HT-CNTRC-CSs with various volume fraction of the CNTs.

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On the vibration and stability behaviors of heterogeneous- CNTRC-truncated conical shells under axial load in the context of FSDT

Sofiyev, A.H.

Abstract The vibration and stability of heterogenous (HT) carbon nanotube reinforced composite truncated conical shells (HT-CNTRC-TCSs) are studied. The main feature of this study is to expand the first order shear deformation theory to the HT-CNTRC-TCSs to obtain an analytical solution of vibration and stability problems. The dynamic stability equations of HT-CNTRC-TCSs are solved by applying Galerkin method. The expressions for the frequency and the critical axial load of HT-CNTRC-TCSs are obtained. In numerical calculations, the influences of heterogeneity and volume fraction of CNTs on the frequency and critical axial load of HT-CNTRC-TCSs are studied in detail.

Highlights • Vibration and Stability of HT-CNTRC cones under axial load using FSDT are investigated. • The basic equations of HT-CNTRC-CSs are derived and solved by using Galerkin method. • Formulas for critical axial load and frequency of HT-CNTR-CSs based on FSDT are obtained. • Analysis is performed for HT-CNTRC-CSs with various volume fraction of the CNTs.

On the vibration and stability behaviors of heterogeneous- CNTRC-truncated conical shells under axial load in the context of FSDT

Sofiyev, A.H.

Abstract The vibration and stability of heterogenous (HT) carbon nanotube reinforced composite truncated conical shells (HT-CNTRC-TCSs) are studied. The main feature of this study is to expand the first order shear deformation theory to the HT-CNTRC-TCSs to obtain an analytical solution of vibration and stability problems. The dynamic stability equations of HT-CNTRC-TCSs are solved by applying Galerkin method. The expressions for the frequency and the critical axial load of HT-CNTRC-TCSs are obtained. In numerical calculations, the influences of heterogeneity and volume fraction of CNTs on the frequency and critical axial load of HT-CNTRC-TCSs are studied in detail.

Highlights • Vibration and Stability of HT-CNTRC cones under axial load using FSDT are investigated. • The basic equations of HT-CNTRC-CSs are derived and solved by using Galerkin method. • Formulas for critical axial load and frequency of HT-CNTR-CSs based on FSDT are obtained. • Analysis is performed for HT-CNTRC-CSs with various volume fraction of the CNTs.

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Title:

On the vibration and stability behaviors of heterogeneous- CNTRC-truncated conical shells under axial load in the context of FSDT

Contributors:

Sofiyev, A.H. (author)

Published in:

Thin-Walled Structures ; 151

Publication date:

2020-03-20

ISSN:

DOI:

https://doi.org/10.1016/j.tws.2020.106747

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Nanocomposites , Vibration , Stability , HT-CNTRC , Truncated cone , Axial load

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