Tangential contact modeling to seal considering elastic-plastic for lubrication transition mechanism

Researches on the reciprocating seals lubrication under elastic-hydrodynamic lubrication (EHL) are mature, and leakage of failure criterion has been described with Couette flow for more than 30 years, which could not reflect to leakage mechanism in multiscale. Thus, it is necessary to explore seal l...

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Veröffentlicht in:Tribology international Jg. 201; S. 110161
Hauptverfasser: Yin, Tuyuan, Sun, Dongning, Miao, Kefei, Liu, Huixiang, Tong, Xiaomeng, Xie, Zhongliang
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Ltd 01.01.2025
Schlagworte:
Elastic-plastic
Leakage rate
Mixed lubrication
Seal
TD
BL/ML
EHL/TEHL
Mixed lubrication
G-W model
Seal
Elastic-plastic
CR
Leakage rate
ISSN:0301-679X
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Abstract Researches on the reciprocating seals lubrication under elastic-hydrodynamic lubrication (EHL) are mature, and leakage of failure criterion has been described with Couette flow for more than 30 years, which could not reflect to leakage mechanism in multiscale. Thus, it is necessary to explore seal leakage failure to focus on micro convex bodies of asperities model under contact pressure and cycle tangential friction stress in mixed lubrication. This is because convex bodies behaviors determine sealing effect and lubrication behaviors in microscale with subjecting to the dominant pressure. Interaction between convex bodies fatigue hysteresis curve and elastic-plastic strain are also calculated to explore sealing effect with leakage rate mechanism. We then design water seal at high pressure of 100 MPa with the speed of 0.1–1 m/s and medium temperature from 5 ℃ to 40 ℃. IWAN model of the convex bodies are calculated. Probability density function and Jenkin’s elements critical slip displacement are obtained. Convex bodies of radial and tangential deformation are also calculated through loading of contact pressure and friction stress with cycle strength coefficient to obtain seal fatigue lifespan. Ratio to seal stick and slip friction is calculated for evaluating the loading boundary. Seal leakage failure mechanism with fatigue characteristics is illustrated with macro lubrication parameters and micro convex bodies mechanics performance. •Leakage failure mechanism is related to the contact behaviors of micro convex bodies with fatigue lifespan.•Convex bodies radial and tangential is calculated, and following Jenkin’s elements can obtain roughness probability density.•IWAN model of elastic and elastic-plastic deformation is solved based on FEM under contact pressure and tangential friction.•We combine mixed lubrication numerical method and convex bodies model to reveal seal leakage rate mechanism from the elastohydrodynamic lubrication.
AbstractList Researches on the reciprocating seals lubrication under elastic-hydrodynamic lubrication (EHL) are mature, and leakage of failure criterion has been described with Couette flow for more than 30 years, which could not reflect to leakage mechanism in multiscale. Thus, it is necessary to explore seal leakage failure to focus on micro convex bodies of asperities model under contact pressure and cycle tangential friction stress in mixed lubrication. This is because convex bodies behaviors determine sealing effect and lubrication behaviors in microscale with subjecting to the dominant pressure. Interaction between convex bodies fatigue hysteresis curve and elastic-plastic strain are also calculated to explore sealing effect with leakage rate mechanism. We then design water seal at high pressure of 100 MPa with the speed of 0.1–1 m/s and medium temperature from 5 ℃ to 40 ℃. IWAN model of the convex bodies are calculated. Probability density function and Jenkin’s elements critical slip displacement are obtained. Convex bodies of radial and tangential deformation are also calculated through loading of contact pressure and friction stress with cycle strength coefficient to obtain seal fatigue lifespan. Ratio to seal stick and slip friction is calculated for evaluating the loading boundary. Seal leakage failure mechanism with fatigue characteristics is illustrated with macro lubrication parameters and micro convex bodies mechanics performance. •Leakage failure mechanism is related to the contact behaviors of micro convex bodies with fatigue lifespan.•Convex bodies radial and tangential is calculated, and following Jenkin’s elements can obtain roughness probability density.•IWAN model of elastic and elastic-plastic deformation is solved based on FEM under contact pressure and tangential friction.•We combine mixed lubrication numerical method and convex bodies model to reveal seal leakage rate mechanism from the elastohydrodynamic lubrication.
ArticleNumber 110161
Author Yin, Tuyuan
Xie, Zhongliang
Miao, Kefei
Liu, Huixiang
Sun, Dongning
Tong, Xiaomeng
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  surname: Yin
  fullname: Yin, Tuyuan
  organization: Beijing Institute of Precision Mechatronics and Controls, Beijing 100076, China
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  givenname: Dongning
  surname: Sun
  fullname: Sun, Dongning
  organization: Beijing Institute of Precision Mechatronics and Controls, Beijing 100076, China
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  surname: Miao
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  organization: Beijing Institute of Precision Mechatronics and Controls, Beijing 100076, China
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  organization: Beijing Institute of Precision Mechatronics and Controls, Beijing 100076, China
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  givenname: Xiaomeng
  surname: Tong
  fullname: Tong, Xiaomeng
  organization: School of Automation Science and Electrical Engineering, Beihang University, 100191. Beijing, China
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  givenname: Zhongliang
  surname: Xie
  fullname: Xie, Zhongliang
  email: zlxie@nwpu.edu.cn
  organization: Department of Engineering Mechanics, Northwestern Polytechnical University, Xi'an 710072, China
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IngestDate Sat Nov 29 03:01:14 EST 2025
Tue Nov 18 22:10:44 EST 2025
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Keywords TD
BL/ML
EHL/TEHL
Mixed lubrication
G-W model
Seal
Elastic-plastic
CR
Leakage rate
Language English
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Snippet Researches on the reciprocating seals lubrication under elastic-hydrodynamic lubrication (EHL) are mature, and leakage of failure criterion has been described...
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StartPage 110161
SubjectTerms Elastic-plastic
Leakage rate
Mixed lubrication
Seal
Title Tangential contact modeling to seal considering elastic-plastic for lubrication transition mechanism
URI https://dx.doi.org/10.1016/j.triboint.2024.110161
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