Thermal contact of roughness macro and micro model to reveal seal leakage mechanism under mixed lubrication

Tuyuan Yin; Jian Fu; Dasheng Wei; Zhongliang Xie; Erqing Zhang; Bin Zhao

doi:10.1016/j.triboint.2023.109176

Thermal contact of roughness macro and micro model to reveal seal leakage mechanism under mixed lubrication

Tuyuan Yin, Jian Fu, Dasheng Wei, Zhongliang Xie^*, Erqing Zhang, Bin Zhao

^*此作品的通讯作者

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摘要

Research on numerical methods for reciprocating seals, including revealing leakage rate mechanism under the elastic-hydraulic lubrication (EHL) regime are mature. However, micro convex bodies contact behaviors and their effect on lubrication transition mechanism are still used under the mixed lubrication (ML) and wear model insufficiently. Seal model with micro convex bodies deformation should be updated to reflect the lubrication transition from EHL to ML and reveal leakage failure mechanism. Reciprocating speed ranging from 0.1 m/s to 0.2 m/s and working pressure of 100 MPa can characterize the seal performance and failure of leakage mechanism especially in low speed and harsh film formation condition. The updated leakage rate formula and the Reynolds equation are modified considering contact factor and reveal leakage mechanism through macro and micro numerical method.

源语言	英语
文章编号	109176
期刊	Tribology International
卷	191
DOI	https://doi.org/10.1016/j.triboint.2023.109176
出版状态	已出版 - 3月 2024
已对外发布	是

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Yin, T., Fu, J., Wei, D., Xie, Z., Zhang, E., & Zhao, B. (2024). Thermal contact of roughness macro and micro model to reveal seal leakage mechanism under mixed lubrication. Tribology International, 191, 文章 109176. https://doi.org/10.1016/j.triboint.2023.109176

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title = "Thermal contact of roughness macro and micro model to reveal seal leakage mechanism under mixed lubrication",

abstract = "Research on numerical methods for reciprocating seals, including revealing leakage rate mechanism under the elastic-hydraulic lubrication (EHL) regime are mature. However, micro convex bodies contact behaviors and their effect on lubrication transition mechanism are still used under the mixed lubrication (ML) and wear model insufficiently. Seal model with micro convex bodies deformation should be updated to reflect the lubrication transition from EHL to ML and reveal leakage failure mechanism. Reciprocating speed ranging from 0.1 m/s to 0.2 m/s and working pressure of 100 MPa can characterize the seal performance and failure of leakage mechanism especially in low speed and harsh film formation condition. The updated leakage rate formula and the Reynolds equation are modified considering contact factor and reveal leakage mechanism through macro and micro numerical method.",

keywords = "Leakage rate, Mixed lubrication, Reciprocating seal, Thermal contact",

author = "Tuyuan Yin and Jian Fu and Dasheng Wei and Zhongliang Xie and Erqing Zhang and Bin Zhao",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier Ltd",

year = "2024",

month = mar,

doi = "10.1016/j.triboint.2023.109176",

language = "English",

volume = "191",

journal = "Tribology International",

issn = "0301-679X",

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TY - JOUR

T1 - Thermal contact of roughness macro and micro model to reveal seal leakage mechanism under mixed lubrication

AU - Yin, Tuyuan

AU - Fu, Jian

AU - Wei, Dasheng

AU - Xie, Zhongliang

AU - Zhang, Erqing

AU - Zhao, Bin

PY - 2024/3

Y1 - 2024/3

N2 - Research on numerical methods for reciprocating seals, including revealing leakage rate mechanism under the elastic-hydraulic lubrication (EHL) regime are mature. However, micro convex bodies contact behaviors and their effect on lubrication transition mechanism are still used under the mixed lubrication (ML) and wear model insufficiently. Seal model with micro convex bodies deformation should be updated to reflect the lubrication transition from EHL to ML and reveal leakage failure mechanism. Reciprocating speed ranging from 0.1 m/s to 0.2 m/s and working pressure of 100 MPa can characterize the seal performance and failure of leakage mechanism especially in low speed and harsh film formation condition. The updated leakage rate formula and the Reynolds equation are modified considering contact factor and reveal leakage mechanism through macro and micro numerical method.

AB - Research on numerical methods for reciprocating seals, including revealing leakage rate mechanism under the elastic-hydraulic lubrication (EHL) regime are mature. However, micro convex bodies contact behaviors and their effect on lubrication transition mechanism are still used under the mixed lubrication (ML) and wear model insufficiently. Seal model with micro convex bodies deformation should be updated to reflect the lubrication transition from EHL to ML and reveal leakage failure mechanism. Reciprocating speed ranging from 0.1 m/s to 0.2 m/s and working pressure of 100 MPa can characterize the seal performance and failure of leakage mechanism especially in low speed and harsh film formation condition. The updated leakage rate formula and the Reynolds equation are modified considering contact factor and reveal leakage mechanism through macro and micro numerical method.

KW - Leakage rate

KW - Mixed lubrication

KW - Reciprocating seal

KW - Thermal contact

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U2 - 10.1016/j.triboint.2023.109176

DO - 10.1016/j.triboint.2023.109176

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AN - SCOPUS:85180533994

SN - 0301-679X

VL - 191

JO - Tribology International

JF - Tribology International

M1 - 109176

ER -

Thermal contact of roughness macro and micro model to reveal seal leakage mechanism under mixed lubrication

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