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Structural Optimization of Reciprocating Seal with Magnetic Fluid Based on Orthogonal Test Design
Journal of Magnetics, Volume 26, Number 2, 30 Jun 2021, Pages 229-237
Abstract
In order to improve the pressure capability of reciprocating sealing structure with magnetic fluid, the L16(45)
orthogonal test design and the numerical simulation with the finite element method. were combined to optimize
the sealing structure. In the process of orthogonal test design, five factors, four levels and the corresponding
orthogonal table were selected. The magnetic field distribution of each orthogonal test was calculated and
analyzed by finite element method. The results of orthogonal test were statistically analyzed by using range
analysis and variance analysis and it shows that the simulation result of pressure capability of the optimal
scheme is the best result in the test simulation analysis. The results showed that the pressure capability of the
optimal scheme is about 0.91 MPa higher than that of the initial reciprocating seal with magnetic fluid.
orthogonal test design and the numerical simulation with the finite element method. were combined to optimize
the sealing structure. In the process of orthogonal test design, five factors, four levels and the corresponding
orthogonal table were selected. The magnetic field distribution of each orthogonal test was calculated and
analyzed by finite element method. The results of orthogonal test were statistically analyzed by using range
analysis and variance analysis and it shows that the simulation result of pressure capability of the optimal
scheme is the best result in the test simulation analysis. The results showed that the pressure capability of the
optimal scheme is about 0.91 MPa higher than that of the initial reciprocating seal with magnetic fluid.
Keywords: magnetic fluid; reciprocating seal; orthogonal test design; numerical simulation
DOI: https://doi.org/10.4283/JMAG.2021.26.2.229
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