A new conception on deduction of Reynolds equation

Gang Ma; Wan Fu Xu; Guang Zhou Xu; Xin Min Shen

A new conception on deduction of Reynolds equation

Gang Ma^*
, Wan Fu Xu
, Guang Zhou Xu
, Xin Min Shen

^*Corresponding author for this work

School of Mechanical Engineering and Automation

Shenyang University of Technology
Beihang University

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

According to different physical forms and different types of film lubrication in the engineering application, three typical film-lubrication pairs and the corresponding micro-element volume flux physics models were introduced, the concepts of geometrical wedge and effective normal velocity difference eigenformula were given. General Reynolds equation was deduced and some mistakes made by papers before were corrected. It can make analytical method and physical meaning simple. Some experiment verifications for basic Reynolds equation lubrication theory were given.

Original language	English
Pages (from-to)	36-39+43
Journal	Run Hua Yu Mi Feng/Lubrication Engineering
Issue number	9
State	Published - Sep 2006

Keywords

Compressive fluid
General Reynolds equation
Slippery supporting
Squeeze supporting
Stability and transient
Thrust slide supporting

Cite this

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title = "A new conception on deduction of Reynolds equation",

abstract = "According to different physical forms and different types of film lubrication in the engineering application, three typical film-lubrication pairs and the corresponding micro-element volume flux physics models were introduced, the concepts of geometrical wedge and effective normal velocity difference eigenformula were given. General Reynolds equation was deduced and some mistakes made by papers before were corrected. It can make analytical method and physical meaning simple. Some experiment verifications for basic Reynolds equation lubrication theory were given.",

keywords = "Compressive fluid, General Reynolds equation, Slippery supporting, Squeeze supporting, Stability and transient, Thrust slide supporting",

author = "Gang Ma and Xu, \{Wan Fu\} and Xu, \{Guang Zhou\} and Shen, \{Xin Min\}",

year = "2006",

month = sep,

language = "英语",

pages = "36--39+43",

journal = "Run Hua Yu Mi Feng/Lubrication Engineering",

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AU - Ma, Gang

AU - Xu, Wan Fu

AU - Xu, Guang Zhou

AU - Shen, Xin Min

PY - 2006/9

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N2 - According to different physical forms and different types of film lubrication in the engineering application, three typical film-lubrication pairs and the corresponding micro-element volume flux physics models were introduced, the concepts of geometrical wedge and effective normal velocity difference eigenformula were given. General Reynolds equation was deduced and some mistakes made by papers before were corrected. It can make analytical method and physical meaning simple. Some experiment verifications for basic Reynolds equation lubrication theory were given.

AB - According to different physical forms and different types of film lubrication in the engineering application, three typical film-lubrication pairs and the corresponding micro-element volume flux physics models were introduced, the concepts of geometrical wedge and effective normal velocity difference eigenformula were given. General Reynolds equation was deduced and some mistakes made by papers before were corrected. It can make analytical method and physical meaning simple. Some experiment verifications for basic Reynolds equation lubrication theory were given.

KW - Compressive fluid

KW - General Reynolds equation

KW - Slippery supporting

KW - Squeeze supporting

KW - Stability and transient

KW - Thrust slide supporting

UR - https://www.scopus.com/pages/publications/33751399572

M3 - 文章

AN - SCOPUS:33751399572

SN - 0254-0150

SP - 36-39+43

JO - Run Hua Yu Mi Feng/Lubrication Engineering

JF - Run Hua Yu Mi Feng/Lubrication Engineering

IS - 9

ER -

A new conception on deduction of Reynolds equation

Abstract

Keywords

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