His main research concerns Composite material, Vibration, Nanoshell, Composite number and Mechanics. His primary area of study in Composite material is in the field of Formability. His research in the fields of Forming limit diagram overlaps with other disciplines such as Carbon steel.
Mostafa Habibi has researched Vibration in several fields, including Shell and Viscoelasticity. His study on Composite number is mostly dedicated to connecting different topics, such as Porosity. His studies in Mechanics integrate themes in fields like Nyström method, Finite element simulation, Deflection and Buckling.
Mostafa Habibi mainly investigates Composite material, Vibration, Boundary value problem, Nyström method and Mechanics. His work on Composite number, Buckling, Shell and Material properties as part of general Composite material research is often related to Nanoshell, thus linking different fields of science. His Vibration study combines topics from a wide range of disciplines, such as Fluid dynamics, Cantilever and Finite element method.
His research in Boundary value problem tackles topics such as Length scale which are related to areas like Natural frequency, Micromechanics and Stress. His Nyström method research incorporates themes from Honeycomb structure, Viscoelasticity and Mass fraction. His Viscoelasticity research includes themes of Graphene nanoplatelet and Foundation.
His primary areas of investigation include Boundary value problem, Vibration, Nyström method, Mechanics and Viscoelasticity. His study with Boundary value problem involves better knowledge in Mathematical analysis. His work carried out in the field of Nyström method brings together such families of science as Hamilton's principle, Cantilever, Finite element method and Rigidity.
His work deals with themes such as Piezoelectricity and Galerkin method, which intersect with Mechanics. His studies deal with areas such as Micromechanics and Exponential function as well as Viscoelasticity. Much of his study explores Composite material relationship to Frequency analysis.
The scientist’s investigation covers issues in Nyström method, Boundary value problem, Viscoelasticity, Composite material and Mathematical analysis. His Boundary value problem research incorporates elements of Vibration, Honeycomb, Honeycomb structure and Fiber. His studies in Viscoelasticity integrate themes in fields like Exfoliated graphite nano-platelets and Harmonic load.
His Composite material study often links to related topics such as Singular point of a curve. His work deals with themes such as Bending, Stress–strain curve and Shear stress, which intersect with Mathematical analysis. The Composite number study combines topics in areas such as Epoxy and Frequency analysis.
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Extremely large oscillation and nonlinear frequency of a multi-scale hybrid disk resting on nonlinear elastic foundation
Ali Shariati;Aria Ghabussi;Mostafa Habibi;Hamed Safarpour.
Thin-walled Structures (2020)
A comprehensive computational approach for nonlinear thermal instability of the electrically FG-GPLRC disk based on GDQ method
M. S. H. Al-Furjan;M. S. H. Al-Furjan;Hamed Safarpour;Mostafa Habibi;Mehran Safarpour.
Engineering With Computers (2020)
Experimental investigation of mechanical properties, formability and forming limit diagrams for tailor-welded blanks produced by friction stir welding
M. Habibi;R. Hashemi;M. Fallah Tafti;A. Assempour.
Journal of Manufacturing Processes (2018)
Frequency characteristics of FG-GPLRC viscoelastic thick annular plate with the aid of GDQM
Mehran Safarpour;Aria Ghabussi;Farzad Ebrahimi;Mostafa Habibi.
Thin-walled Structures (2020)
Free vibration analysis of an electro-elastic GPLRC cylindrical shell surrounded by viscoelastic foundation using modified length-couple stress parameter
Aria Ghabussi;Negin Ashrafi;Aghil Shavalipour;Abolfazl Hosseinpour.
Mechanics Based Design of Structures and Machines (2021)
Multilayer GPLRC composite cylindrical nanoshell using modified strain gradient theory
Zanyar Esmailpoor Hajilak;Johar Pourghader;Davoud Hashemabadi;Farzaneh Sharifi Bagh.
Mechanics Based Design of Structures and Machines (2019)
On modeling of wave propagation in a thermally affected GNP-reinforced imperfect nanocomposite shell
Farzad Ebrahimi;Mostafa Habibi;Hamed Safarpour.
Engineering With Computers (2019)
A size-dependent exact theory for thermal buckling, free and forced vibration analysis of temperature dependent FG multilayer GPLRC composite nanostructures restring on elastic foundation
Hamed Safarpour;Zanyar Esmailpoor Hajilak;Mostafa Habibi.
International Journal of Mechanics and Materials in Design (2019)
Enhancing the Mechanical Properties and Formability of Low Carbon Steel with Dual-Phase Microstructures
Mostafa Habibi;Ramin Hashemi;Ehsan Sadeghi;A. Fazaeli.
Journal of Materials Engineering and Performance (2016)
Forming limit diagrams by including the M–K model in finite element simulation considering the effect of bending:
Mostafa Habibi;Ramin Hashemi;Ahmad Ghazanfari;Reza Naghdabadi.
Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications (2018)
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