Author(s): Wang X; Sedaghati R; Rakheja S; Shangguan W;

Rubber materials can endure substantial deformation while avoiding permanent damage or rupture, making them highly suitable for applications in the automotive industry and other sectors, particularly for noise and vibration reduction. However, rubber experiences degradation over time as defects or cracks appear and propagate under fluctuating loads. There ...

Article GUID: 40219307

Author(s): Abdollahi I; Sedaghati R;

Magnetorheological elastomers (MREs) are a class of smart materials with rubber-like qualities, demonstrating revertible magnetic field-dependent viscoelastic properties, which makes them an ideal candidate for development of the next generation of adaptive vibration absorbers. This research study aims at the development of a finite element model using mi ...

Article GUID: 38794567

Author(s): Jafari H; Sedaghati R;

This study aims to enhance and tune wave-propagation properties (Bandgaps) of periodic structures featuring magnetorheological elastomers (MREs). For this purpose, first, a basic model of periodic structures (square unit cell with cross-shaped arms), which does not possess noise filtering properties in the conventional configuration, is considered. A pass ...

Article GUID: 36772034

Author(s): Asadi Khanouki M, Sedaghati R, Hemmatian M

Materials (Basel). 2020 May 14;13(10): Authors: Asadi Khanouki M, Sedaghati R, Hemmatian M

Article GUID: 32422988