Design, Fabricate and Experimentally Evaluate the Performance of Magnetorheological Fluid Damper

Design, Fabricate and Experimentally Evaluate the Performance of Magnetorheological Fluid Damper
Author(s):
Shubham Shrimandil, Saurabh Zambare, Vivek Singh Rawat, Abhijeet Pawar
Keywords:
magneto-rheological (MR) fluid, MR damper, magnetic flux density,magnetic field intensity, dynamic range.
Abstract
the aim of this work is to design, fabricate and experimentally analyze the performance of MR damper (prototype). The basic function of a damper is to mitigate the vibration of the system and minimize fatigue of the components of system. MR damper is electromechanical device whose damping can be controlled by controlling the current flowing through the electromagnetic coils. Design of MR damper involves hydraulic and magnetic circuit design. These types of dampers are proving to be one of the alternatives to conventional dashpot damping, as conventional dampers cannot adjust to varying forces, whereas MR damper being controllable will adjust to varying forces.
Article Details
Unique Paper ID: 144574 Publication Volume & Issue: Volume 4, Issue 1 Page(s): 54 - 60
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