The lip motion trajectory of eccentric oil seal considering material viscoelasticity

Zhai, Fugang; Li, Shengnan; Xing, Yangtao

doi:10.1108/ilt-06-2023-0161

ILT

2023

DOI: 10.1108/ilt-06-2023-0161

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The lip motion trajectory of eccentric oil seal considering material viscoelasticity

Fugang Zhai,

Shengnan Li,

Yangtao Xing

Abstract: Purpose This paper aims to study the motion trajectory of the oil seal for shaft in eccentric state and derive equation of lip motion trajectory. Design/methodology/approach This paper analyzes the force during the motion of the eccentric lip by considering the material viscoelasticity, and a cam-plate mechanism is established as an equivalent model for the motion between the shaft and the lip; according to this, the equation of lip motion trajectory is derived. Findings The trajectory of the lip lags that… Show more

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2024

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Cited by 1 publication

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A study on radial oil seal leakage failure due to viscoelasticity under dynamic eccentricity

Xing,

Zhai,

et al. 2024

ILT

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Purpose This study aims to investigate the causes of leakage in radial oil seals under dynamic eccentricity, elucidate the influence of operating parameters on leakage failure and develop methods for predicting and preventing such leakage. Design/methodology/approach Based on the principle of cam motion and considering viscoelasticity, develops a motion model of the compression and release of the shaft seal and proposes a method to determine its failure. In addition, this study quantifies the leakage gap and formulates a quantitative calculation model to accurately determine the location and shape parameters of the leakage gap. Findings Leakage gaps predominantly occur during the release phase of the shaft seal. Their presence can be identified by comparing the descending times of the seal and the shaft during this phase. An increase in rotation speed and eccentricity heightens the likelihood of gap formation, with both the dimensions and leakage rate of the gap increasing as these factors escalate. Eccentricity, in particular, has a more pronounced effect on gap formation. Originality/value This study clarifies the failure mechanisms of radial oil seals under dynamic eccentricity and introduces a criterion for identifying leakage gaps, providing valuable theoretical guidance for the design and optimization of radial oil seals. Peer review The peer review history for this article is available at: https://publons.com/publon/10.1108/ILT-05-2024-0192/.

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A study on radial oil seal leakage failure due to viscoelasticity under dynamic eccentricity

Xing,

Zhai,

et al. 2024

ILT

View full text Add to dashboard Cite

show abstract

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The lip motion trajectory of eccentric oil seal considering material viscoelasticity

Cited by 1 publication

References 15 publications

A study on radial oil seal leakage failure due to viscoelasticity under dynamic eccentricity

A study on radial oil seal leakage failure due to viscoelasticity under dynamic eccentricity

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