M
Mohammad Arefi
Researcher at University of Kashan
Publications - 164
Citations - 3859
Mohammad Arefi is an academic researcher from University of Kashan. The author has contributed to research in topics: Shell (structure) & Equations of motion. The author has an hindex of 33, co-authored 146 publications receiving 2793 citations. Previous affiliations of Mohammad Arefi include Tarbiat Modares University.
Papers
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Free vibrations of functionally graded polymer composite nanoplates reinforced with graphene nanoplatelets
TL;DR: In this article, the free vibration behavior of functionally graded (FG) polymer composite nanoplates reinforced with graphene nanoplatelets (GNPs), resting on a Pasternak foundation, was analyzed.
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Free vibration and buckling analyses of magneto-electro-elastic FGM nanoplates based on nonlocal modified higher-order sinusoidal shear deformation theory
TL;DR: In this article, the free vibration and buckling responses of functionally graded nanoplates with magneto-electro-elastic coupling are studied for the first time using a nonlocal modified sinusoidal shear deformation plate theory including the thickness stretching effect.
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Analysis of porous micro-plates reinforced with FG-GNPs based on Reddy plate theory
TL;DR: In this paper, size-dependent deflection analysis of FG graphene nanoplatelets (GNPs) reinforced composite micro-plates with porosity subjected to transverse load is studied. But the analysis is limited to the case of GNPs.
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Thermoelastic analysis of a thick walled cylinder made of functionally graded piezoelectric material
TL;DR: In this paper, the thermopiezoelectric behavior of a thick walled cylinder with functionally graded materials is studied, where the cylinder is loaded under the temperature gradient and inner and outer pressures.
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Nonlocal bending analysis of curved nanobeams reinforced by graphene nanoplatelets
Mohammad Arefi,Elyas Mohammad-Rezaei Bidgoli,Rossana Dimitri,Michele Bacciocchi,Francesco Tornabene +4 more
TL;DR: In this paper, a large parametric investigation on the bending response of Functionally Graded (FG) polymer composite curved beams reinforced by graphene nanoplatelets resting on a Pasternak foundation is presented.