Magnetorheological (MR) fluid dampers (MRFDs) with variable stiffness and variable
dam** capability (VSVD-MRFDs) have demonstrated excellent vibration mitigation …

Modeling the inherent non-linear dynamic hysteresis behavior of magnetorheological (MR)
fluid dampers is a fundamental necessity for their practical implementation. Quasi-static …

This paper presents an optimal design of a large-capacity Magnetorheological (MR) damper
suitable for off-road vehicle applications. The damper includes an MR fluid bypass valve …

Magnetorheological (MR) valves attracted the interest of researchers across diverse fields,
owing to the controllable nature of MR fluid. The use of MR fluid in valves enables fast …

Magnetorheological materials refer to field-response smart materials whose properties are
controllable with a magnetic field, including fluid, grease, elastomer, and gel. The unique …

To increase the adaptability of bridge construction equipment in high-altitude settings, this
study examines a magnetorheological (MR) damper designed for cable-stayed climbing …

The climbing stability of cable‐detecting robots holds important significance for bridge
detection. To improve the climbing stability of robots under cable vibration, a loading …

This research presents a novel approach to sealing components by proposing an optimized
design and experimental evaluation of a magneto-rheological fluid (MRF) sealing …

This paper is concerned with the free and forced vibration responses of a
magneto/electroactive dielectric elastomer, emphasizing the chaotic phenomena. The …

Under small amplitude and medium-high frequency excitations, mechanical properties of
squeeze mode magnetorheological (MR) damper change obviously which are different from …