Unsteady extension of quasi-steady physical modeling and experimental verification of a magnetorheological energy absorber

Abstract: Magnetorheological (MR) fluids are promising in controllable damping based on regulated apparent viscosity under magnetic field control, and they are employed in various damping devices such as automotive dampers and energy absorbers for artillery or landing gears by medium substitution with structural adaptations. In this study, we designed and fabricated a magnetorheological energy absorber (MREA) with disc springs as recoiling parts, modeled the MR fluid flow based on the Bingham constitutive model, and the… Show more

“…In addition, the viscosity model of STF usually appears in a segmented form in order to better describe the entire shear thickening viscosity rheology, which limits its applicability to some extent. MRSTF commonly used stress constitutive model, such as Bingham model (equation ( 4)) [44,45], Herschel-Bulkley model (equation ( 5)) [46]:…”

Research on rheological properties and phenomenological theory-based constitutive model of magnetorheological shear thickening fluids

“…In addition, the viscosity model of STF usually appears in a segmented form in order to better describe the entire shear thickening viscosity rheology, which limits its applicability to some extent. MRSTF commonly used stress constitutive model, such as Bingham model (equation ( 4)) [44,45], Herschel-Bulkley model (equation ( 5)) [46]:…”

Research on rheological properties and phenomenological theory-based constitutive model of magnetorheological shear thickening fluids