Physical stability response of a SLGS resting on viscoelastic medium using nonlocal integral first-order theory

Abdelkrim Rouabhia; Abdelbaki Chikh; Abdelmoumen Anis Bousahla; Fouad Bourada; Houari Heireche; Abdeldjebbar Tounsi; Kouider Halim Benrahou; Abdelouahed Tounsi; Mesfer Mohammad Al-Zahrani

doi:10.12989/scs.2020.37.6.695

Physical stability response of a SLGS resting on viscoelastic medium using nonlocal integral first-order theory

Abdelkrim Rouabhia
, Abdelbaki Chikh
, Abdelmoumen Anis Bousahla
, Fouad Bourada
, Houari Heireche
, Abdeldjebbar Tounsi
, Kouider Halim Benrahou
, Abdelouahed Tounsi^*
, Mesfer Mohammad Al-Zahrani

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

87 Scopus citations

Abstract

The buckling properties of a single-layered graphene sheet (SLGS) are examined using nonlocal integral first shear deformation theory (FSDT) by incorporating the influence of visco-Pasternak’s medium. This model contains only four variables, which is even less than the conventional FSDT. The visco-Pasternak’s medium is introduced by considering the damping influence to the conventional foundation model which modeled by the linear Winkler’s coefficient and Pasternak’s (shear) foundation coefficient. The nanoplate under consideration is subjected to compressive in- plane edge loads per unit length. The impacts of many parameters such as scale parameter, aspect ratio, the visco-Pasternak’s coefficients, damping parameter, and mode numbers on the stability investigation of the SLGSs are examined in detail. The obtained results are compared with the corresponding available in the literature.

Original language	English
Pages (from-to)	695-709
Number of pages	15
Journal	Steel and Composite Structures
Volume	37
Issue number	6
DOIs	https://doi.org/10.12989/scs.2020.37.6.695
State	Published - 25 Dec 2020

Bibliographical note

Publisher Copyright:
Copyright © 2020 Techno-Press, Ltd.

Keywords

Integral FSDT
Nonlocal shear deformation model
Nonuniform stability
Visco-Pasternak’s medium

ASJC Scopus subject areas

Civil and Structural Engineering
Building and Construction
Metals and Alloys

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10.12989/scs.2020.37.6.695

Cite this

@article{5566cc0f3cc042dfba58b97123e6f060,

title = "Physical stability response of a SLGS resting on viscoelastic medium using nonlocal integral first-order theory",

abstract = "The buckling properties of a single-layered graphene sheet (SLGS) are examined using nonlocal integral first shear deformation theory (FSDT) by incorporating the influence of visco-Pasternak{\textquoteright}s medium. This model contains only four variables, which is even less than the conventional FSDT. The visco-Pasternak{\textquoteright}s medium is introduced by considering the damping influence to the conventional foundation model which modeled by the linear Winkler{\textquoteright}s coefficient and Pasternak{\textquoteright}s (shear) foundation coefficient. The nanoplate under consideration is subjected to compressive in- plane edge loads per unit length. The impacts of many parameters such as scale parameter, aspect ratio, the visco-Pasternak{\textquoteright}s coefficients, damping parameter, and mode numbers on the stability investigation of the SLGSs are examined in detail. The obtained results are compared with the corresponding available in the literature.",

keywords = "Integral FSDT, Nonlocal shear deformation model, Nonuniform stability, Visco-Pasternak{\textquoteright}s medium",

author = "Abdelkrim Rouabhia and Abdelbaki Chikh and Bousahla, \{Abdelmoumen Anis\} and Fouad Bourada and Houari Heireche and Abdeldjebbar Tounsi and Benrahou, \{Kouider Halim\} and Abdelouahed Tounsi and Al-Zahrani, \{Mesfer Mohammad\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2020 Techno-Press, Ltd.",

year = "2020",

month = dec,

day = "25",

doi = "10.12989/scs.2020.37.6.695",

language = "English",

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T1 - Physical stability response of a SLGS resting on viscoelastic medium using nonlocal integral first-order theory

AU - Rouabhia, Abdelkrim

AU - Chikh, Abdelbaki

AU - Bousahla, Abdelmoumen Anis

AU - Bourada, Fouad

AU - Heireche, Houari

AU - Tounsi, Abdeldjebbar

AU - Benrahou, Kouider Halim

AU - Tounsi, Abdelouahed

AU - Al-Zahrani, Mesfer Mohammad

PY - 2020/12/25

Y1 - 2020/12/25

N2 - The buckling properties of a single-layered graphene sheet (SLGS) are examined using nonlocal integral first shear deformation theory (FSDT) by incorporating the influence of visco-Pasternak’s medium. This model contains only four variables, which is even less than the conventional FSDT. The visco-Pasternak’s medium is introduced by considering the damping influence to the conventional foundation model which modeled by the linear Winkler’s coefficient and Pasternak’s (shear) foundation coefficient. The nanoplate under consideration is subjected to compressive in- plane edge loads per unit length. The impacts of many parameters such as scale parameter, aspect ratio, the visco-Pasternak’s coefficients, damping parameter, and mode numbers on the stability investigation of the SLGSs are examined in detail. The obtained results are compared with the corresponding available in the literature.

AB - The buckling properties of a single-layered graphene sheet (SLGS) are examined using nonlocal integral first shear deformation theory (FSDT) by incorporating the influence of visco-Pasternak’s medium. This model contains only four variables, which is even less than the conventional FSDT. The visco-Pasternak’s medium is introduced by considering the damping influence to the conventional foundation model which modeled by the linear Winkler’s coefficient and Pasternak’s (shear) foundation coefficient. The nanoplate under consideration is subjected to compressive in- plane edge loads per unit length. The impacts of many parameters such as scale parameter, aspect ratio, the visco-Pasternak’s coefficients, damping parameter, and mode numbers on the stability investigation of the SLGSs are examined in detail. The obtained results are compared with the corresponding available in the literature.

KW - Integral FSDT

KW - Nonlocal shear deformation model

KW - Nonuniform stability

KW - Visco-Pasternak’s medium

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SN - 1229-9367

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IS - 6

ER -

Physical stability response of a SLGS resting on viscoelastic medium using nonlocal integral first-order theory

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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