Non-dimensional analysis and design of a magnetorheological damper

The vast majority of the investigations for controllable magnetorheological (MR) dampers have focused on their low velocity and low frequency applications. The extensive work in this area has led to a good understanding of MR fluid properties at low velocities and frequencies. Many of the issues per

The potential bene"ts of a semi-active magnetorheological (MR) damper in reducing the incidence and severity of end-stop impacts of a low natural frequency suspension seat are investigated. The MR damper considered is a commercially developed product, referred to as &&Motion Master semi-active dampi

Based on shape memory alloy (SMA) superelastic properties, a new SMA damper is designed and manufactured. Experiments were taken to investigate the influence of frequency and displacement amplitude on the damper's mechanical behavior. The results show that, in the range of experimental frequencies,

The mechanical behaviour of parts containing ER fluid can be derived, once the constitutive equation for characterising the fluid is known. An elastic-plastic material model with kinematic strain-hardening was selected, its parameters having been determined from a test with uniaxial loading. Four di