Issue |
Wuhan Univ. J. Nat. Sci.
Volume 29, Number 2, April 2024
|
|
---|---|---|
Page(s) | 177 - 192 | |
DOI | https://doi.org/10.1051/wujns/2024292177 | |
Published online | 14 May 2024 |
Engineering Technology
CLC number: TB42
Analysis and Key Parameter Optimization Design of Leningrader Seal Performance
1
College of Mechanical and Electrical Engineering, Lanzhou University of Technology, Lanzhou 730050, Gansu China
2
Wenzhou Pump and Valve Engineering Research Institute, Lanzhou University of Technology, Wenzhou 325000, Zhejiang, China
3
State Key Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, Lanzhou 730000, Gansu, China
Received:
27
August
2023
In order to improve the performance and service life of the Leningrader seal of the Stirling engine piston rod, interference, preload and friction coefficient were taken as influencing factors, and the curved surface response method was adopted to reduce the contact stress of sealing surface and von Mises stress of the sealing sleeve as the response index, with the optimization goal of reducing wear and extending life. The above three key parameters are analyzed and optimized, the influence of each parameter on the sealing performance and service life is obtained, and the best combination scheme of the three is determined. The results show that the interaction between pretightening force and interference fit has the greatest impact on contact stress. The interaction between interference fit and friction coefficient has the most significant effect on von Mises stress. The optimized parameters can reduce the maximum contact stress and maximum von Mises stress of the sealing sleeve by 26.3% and 20.6%, respectively, under a media pressure of 5-9 MPa. Test bench verification shows that the leakage of the optimized sealing device in 12 h is reduced by 0.44 cc·min-1 (1 cc=1 cm3). The wear rate of the sealing sleeve is 1.08% before optimization and 0.45% after optimization, indicating that the optimized parameters in this paper are effective.
Key words: Leningrader seal / Stirling engine / performance analysis / optimized design / parameter configuration
Cite this article: YANG Dongya, WANG Xuelin, WANG Feng, et al. Analysis and Key Parameter Optimization Design of Leningrader Seal Performance[J]. Wuhan Univ J of Nat Sci, 2024, 29(2): 177-192.
Biography: YANG Dongya, male, Associate professor, research direction: Stirling machine sealing technology. E-mail: yangdy@lut.edu.cn
Fundation item: Supported by the National Natural Science Foundation of China (51675509), and Wenzhou Public Welfare Industrial Technology Project (G20170026)
© Wuhan University 2024
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