Li Ren Chen scite author profile

Li Ren Chen

2Publications

1Citation Statement Received

17Citation Statements Given

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National Changhua University of Education

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Application of the Taguchi method for finite element analysis of a shear-type magnetorheological fluid damper

Chen

2020

Advances in Mechanical Engineering

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A magnetorheological fluid damper is a device in which a magnetorheological fluid is filled in a damper. In this device, the magnetic field is controlled by an external current (voltage) so that the magnetic force of a piston inside the damper changes like an electromagnet. The damping force of the damper is controlled by changing the magnetic force of the piston. With the increasing magnetic force of the piston, the viscosity of the magnetorheological fluid in the damper increases. The primary aim of this study was to maximize the magnetic flux density and identify the following influencing factors from the relevant literature: piston and outer tube materials, piston length, piston diameter, cylinder wall thickness, damper channel clearance, gap channel length, current, and magnetorheological fluid. A magnetic circuit analysis was performed using ANSYS Maxwell, and the optimal parameter combination was identified using the Taguchi method. The analysis of variance was used to examine the influence of various factors on quality characteristics. This study helps understand the relation between structure size, material, and magnetic flux density and contributes to future generations of magnetorheological fluid damper design analysis.

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Optimum Design of Si-Cr Alloy Springs for Seismic Vibration Isolator

Chen

Kao

Chen

et al. 2016

KEM

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In this paper, a dynamic stress analysis of seismic vibration isolator was carried out by using ANSYS. The vibration isolator consisted of Si-Cr springs and magnetorheological dampers. The stress and deformation of the springs were calculated when an impact load was applied to the isolator. From the simulation for six different springs, in terms of their wire dimeter and coil diameter, an optimum shape of the springs to minimize the stress and deformation was determined.

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Li Ren Chen

Application of the Taguchi method for finite element analysis of a shear-type magnetorheological fluid damper

Optimum Design of Si-Cr Alloy Springs for Seismic Vibration Isolator

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