The performance of Magnetorheological dampers should be analyzed to study the stability
of Magnetorheological fluid and its configuration. To this end, in this study a prototype …

Abstract Background Magneto-Rheological (MR) fluids are made—up of iron particles
suspended in carrier liquid containing additives in proportion to make reversible changes to …

The controllable rheological properties of MR fluid exhibit viscoelastic properties within pre-
yield, which are essential for the characterization of MR dampers for the isolation of …

Magnetorheological fluid (MRF) sealing technology has gained more and more attention in
civil engineering, safety engineering, manufacturing, life science, aviation and so on, owing …

Magnetorheological fluid (MRF) damper is one of the most promising semiactive devices for
vibration control. In this paper, a shear‐valve mode MRF damper for pipeline vibration …

An accurate and efficient optimization method is required to design magnetorheological
dampers (MRDs). To solve the contradiction between calculation accuracy and efficiency in …

The consistency of magnetic flux density of damping gap (CMDG) represents the balancing
magnetic flux density in each damping gap of magnetorheological (MR) dampers. It can …

Field controllable magnetorheological (MR) damper has gained prominence as a suitable
vibration control device for a wide variety of applications as they offer the combined …

Purpose: We aim to provide a systematic methodology for the optimal design of MRD for
improved damping capacity and dynamical adjustability in performing its damping function …

Magnetorheological materials are a class of smart substances whose rheological properties
can rapidly be varied by application of a magnetic field. The proposed damper consists of an …