F
Farough Mohammadi
Researcher at Concordia University
Publications - 8
Citations - 186
Farough Mohammadi is an academic researcher from Concordia University. The author has contributed to research in topics: Finite element method & Shell (structure). The author has an hindex of 6, co-authored 8 publications receiving 157 citations. Previous affiliations of Farough Mohammadi include Concordia University Wisconsin.
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Finite element analysis and design optimization of low plasticity burnishing process
TL;DR: In this paper, a 3D explicit nonlinear finite element model is used to investigate the effect of main parameters including ball diameter, burnishing force, burnish feed, and number of passes on the resultant profile of residual stress and plastic deformation.
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Linear and nonlinear vibration analysis of sandwich cylindrical shell with constrained viscoelastic core layer
TL;DR: In this article, the effect of geometric nonlinearity due to the large deformation of the shell has also been considered assuming small strain and moderate rotation, and it is shown that slippage between layers at the interfaces leads to reduction in loss factor at the majority of modes.
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Vibration analysis and design optimization of viscoelastic sandwich cylindrical shell
TL;DR: In this article, a higher-order Taylor's expansion of transverse and in-plane displacement fields is developed for the core layer of a cylindrical shell in which the displacement fields at the core layers are compatibly described in terms of the displacement field at the elastic faces.
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Nonlinear free vibration analysis of sandwich shell structures with a constrained electrorheological fluid layer
TL;DR: In this article, a nonlinear finite element model of a multi-layer shell structure with an electrorheological (ER) fluid layer in the core of the sandwich shell has been developed.
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Vibration analysis and design optimization of sandwich cylindrical panels fully and partially treated with electrorheological fluid materials
TL;DR: In this article, the effect of electric field intensity and thickness of top constrained elastic layer on the vibration and damping performance of the viscoelastic- and electrorheological-based sandwich cylindrical panel was investigated for different boundary conditions.