THE CONTRIBUTION OF A SLIDING VELOCITY TO EHL FILM THICKNESS DISTRIBUTION

机译：滑动速度对EHL膜厚度分布的贡献

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In general contact conditions, the surface velocities are variously oriented, thus the entrainment and sliding velocity act at different directions. The effects of magnitude and direction of the sliding velocity in elastohydrodynamic lubrication (EHL) circular contact have been investigated. Film thickness distribution has been obtained using thin-film colorimetric interferometry. It has been found that direction of sliding velocity with respect to entrainment velocity play a role in film thickness distribution, particularly at high slide-to-roll ratios. A superposition of the effects of a pure rolling and of an opposite sliding has been considered. The pure rolling condition creates typical horse-shoe shaped film, whereas under the opposite sliding condition (i.e. zero entrainment velocity) conical depression in the central area of Hertzian contact called "dimple" has been observed.

机译：在一般的接触条件下，表面速度的取向各不相同，因此夹带和滑动速度沿不同的方向作用。研究了弹性流体动力润滑（EHL）圆形接触中滑动速度的大小和方向的影响。使用薄膜比色干涉法已经获得了膜厚度分布。已经发现，滑动速度相对于夹带速度的方向在膜厚度分布中起作用，特别是在高滑动比的情况下。已经考虑了纯滚动和相反滑动的效果的叠加。纯滚动条件产生典型的马蹄形薄膜，而在相反的滑动条件（即零夹带速度）下，在赫兹接触的中心区域观察到锥形凹陷，称为“凹痕”。

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《ASME/STLE international joint tribology conference 2012》|2012年|107-109|共3页
会议地点 Denver CO(US)
作者
Milan Omasta; Ivan Krupka; Martin Haiti;
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Institute of Machine and Industrial Design, Faculty of Mechanical Engineering,Brno University of Technology, Czech Republic;

Institute of Machine and Industrial Design, Faculty of Mechanical Engineering,Brno University of Technology, Czech Republic;

Institute of Machine and Industrial Design, Faculty of Mechanical Engineering,Brno University of Technology, Czech Republic;

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1. A Limiting Solution for the Dependence of Film Thickness on Velocity in EHL Contacts with Very Thin Films [J] . G. E. MORALES-ESPEJEL, M. L. DUMONT, P. M. LUGT, Tribology Transactions . 2005,第3期

机译：EHL接触极薄薄膜时薄膜厚度对速度的依赖的一种极限解决方案
2. New minimum film thickness formula for EHL rolling/sliding line contacts considering shear thinning behavior [J] . Parinam Anuradha, Punit Kumar Proceedings of the Institution of Mechanical Engineers, Part J. Journal of engineering tribology . 2013,第3期

机译：考虑剪切稀化行为的EHL滚动/滑动线接触的新最小膜厚公式
3. Temperature Measurements of Both Sliding Surfaces and an Estimation of Temperature Profile Across Film Thickness Under EHL Conditions [J] . Kazuyuki Yagi, Keiji Kyogoku, Tsunamitsu Nakahara Japanese Journal of Tribology . 2002,第2期

机译：EHL条件下两个滑动表面的温度测量以及整个膜厚度的温度分布估算
4. THE CONTRIBUTION OF A SLIDING VELOCITY TO EHL FILM THICKNESS DISTRIBUTION [C] . Milan Omasta, Ivan Krupka, Martin Haiti ASME/STLE international joint tribology conference . 2013

机译：滑动速度与EHL膜厚度分布的贡献
5. EXPERIMENTAL STUDY OF VELOCITY DISTRIBUTIONS WITHIN FALLING LIQUID FILMS. [D] . HO, FREDERICK CHAK-KAY. 1969

机译：液膜掉落过程中速度分布的实验研究。
6. The electron as a probe to measure the thickness distributions of electroactive films [O] . Darren Buesen, Huaiguang Li, Nicolas Plumeré 2020

机译：电子作为测量电活性膜的厚度分布的探针
7. Relationship between Oil Temperature Increase and EHL Film Thickness Reduction Caused by Sliding Velocity. [O] . Toshiji NONISHI, Yoshio TERAUCHI 1996

机译：滑动速度增加油温与EHL膜厚度的关系。
8. The Effect of Sliding Speed on Film Thickness and Pressure Supporting Ability of a Point Contact Under Zero Entrainment Velocity Conditions [R] . Thompson, Peter M., Jones, William R., Jr., Jansen, Mark J., 2000

机译：滑动速度对零夹带速度条件下点接触薄膜厚度和压力支承能力的影响

THE CONTRIBUTION OF A SLIDING VELOCITY TO EHL FILM THICKNESS DISTRIBUTION

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