Universiti Teknologi Malaysia Institutional Repository

Development of a modular MR valve using meandering flow path structure

Ichwan, B. and Mazlan, S. A. and Imaduddin, F. and Ubaidillah, Ubaidillah and Koga, T. and Idris, M. H. (2016) Development of a modular MR valve using meandering flow path structure. Smart Materials and Structures, 25 (3). ISSN 0964-1726

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Abstract

The extensive development of the magnetorheological (MR) valve has successfully introduced a new high-performance compact-class MR valve using a meandering flow path structure. Aside from the performance improvement, in real applications, the ease of performance adjustment also needs to be improved. This study focused on the development of a new design of a modular MR valve using a meandering flow path to improve the adjustability of the valve performance. The approach is proposed based on the high-performance advantages of a meandering flow path structure, while at the same time utilizing the benefit of the modular structure in terms of performance flexibility. In order to evaluate the performance of the modular structure, the analytical assessment was conducted for three different module stages: the single-stage module, the double-stage module, and triple-stage module. To predict the strength of the magnetic field in the effective area, the magnetic simulation was conducted through an open-source software called the FEMM (Finite Element Method Magnetics). The quasi-steady mathematical model of the proposed valve was also derived to conduct the analytical assessment as well as to predict the valve performance. In order to validate the simulation results, the prototypes of the proposed valve are experimentally tested with the aid of the hydraulic cylinder on a dynamic test machine. The results of the MR valve assessment from both the simulation and experimental test demonstrated that the pressure drop rating of the meandering type MR valve can be easily modified using modular structure by changing the number of module stages.

Item Type:Article
Uncontrolled Keywords:Computer software, Hydraulic machinery, Information dissemination, Open source software, Open systems, Software engineering, Structure (composition), annular-radial, Magnetorheological valve, meandering flow, Modular structures, performance flexibility, Finite element method
Subjects:T Technology > T Technology (General)
Divisions:Malaysia-Japan International Institute of Technology
ID Code:71639
Deposited By: Widya Wahid
Deposited On:21 Nov 2017 03:28
Last Modified:21 Nov 2017 03:28

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