A finite element analysis of the impact of split pole shoes on magnetic liquid sealing performance

Author:

Zhiguo Liu1,Huitao Zhang1,Li Yang2

Affiliation:

1. Computer Science and Engineering College of Shijiazhuang University , Shijiazhuang , Hebei Province , China

2. Physics and Electrical Engineering College of Shijiazhuang University , Shijiazhuang , Hebei Province , China

Abstract

Abstract Though split pole shoe can solve the problems of increased cost and decreased efficiency caused by replacing pole shoes in the test, assembling and use of split sealing devices, it fails to overcome the issue of sealing in the gap between split pole shoe's junction surface and shaft. In this paper, a split magnetic liquid sealing structure is designed, combining magnetic liquid sealing and split pole shoe's plane sealing. In our study, we have adopted three methods for split sealing and use theory and simulation to ascertain the sealing performance of the split magnetic liquid sealing structure designed by us. The results indicate that magnetic sealant bonded split pole shoes show better sealing performance as compared to those bonded by ordinary sealant, and that the structural optimisation results can meet the requirement for sealing performance. The simulation results coincide with theoretical results, which proves the correctness of this research.

Publisher

Walter de Gruyter GmbH

Subject

Applied Mathematics,Engineering (miscellaneous),Modeling and Simulation,General Computer Science

Reference15 articles.

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2. Morton G, Früh W G. The force on an object passing through a magnetic fluid seal[J]. Journal of Magnetism & Magnetic Materials, 2002,252: 324–326.

3. Kosatka T O. Split seal: US, US2558183[P]. 1951.

4. Washburn G F. Split seal: US, US 3076655 A[P]. 1963.

5. Pow M A. Split seal: US, US 6076832 A[P]. 2000.

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