Parametric Analysis of Magnetorheological Strut for Semiactive Suspension System Using Taguchi Method

Abstract: Magnetorheological (MR) strut is among the leading advanced applications of semi-active suspension systems. The damping force of MR damper is controlled by varying the viscosity of MR fluid. In this work, the viscosity of MR damper varies by changing the current from 0.5A to 0.7A. The design of experiments is taken into account in concert with the product/process development as one completely advanced tool. The parameters used for ride comfort optimization are sprung mass, spring stiffness, tire pressure, curr… Show more

“…The LTB S/N was selected to maximize the phenol and COD removal efficiency. The LTB response can be evaluated by the standard formula for this type of characteristic [41][42][43][44]:…”

The Taguchi Approach in Studying and Optimizing the Electro-Fenton Oxidation to Reduce Organic Contaminants in Refinery Wastewater Using Novel Electrodes

“…The LTB S/N was selected to maximize the phenol and COD removal efficiency. The LTB response can be evaluated by the standard formula for this type of characteristic [41][42][43][44]:…”

The Taguchi Approach in Studying and Optimizing the Electro-Fenton Oxidation to Reduce Organic Contaminants in Refinery Wastewater Using Novel Electrodes

“…Generally, these models can be classified in three types, quarter-car, half-car, and full-car modeling. Using Taguchi L16 array and SNR analysis, measurements for the performance of the semi-active suspension system with MR damper were taken in [1] and according to the results, damper cylinder material is the key parameter to the design of the magnetorheological (MR) damper. By using speed bump as road disturbance, overshoot and settling time with passive suspension system were analyzed in [2] for a quarter-car model with 2 degrees of freedom.…”

Dynamic Behavior and Force Analysis of the Full Vehicle Model using Newmark Average Acceleration Method