Energy-Conserved Hydrodynamic Lubricated Components with Wall Slippage

IF 0.9 Q4 ENGINEERING, MECHANICAL

International Journal of Rotating Machinery Pub Date : 2023-04-13 DOI:10.1155/2023/9937708

Xiaoxu Huang, Yongbin Zhang

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引用次数: 0

Abstract

The hydrodynamic thrust slider and journal bearings as well as hydrodynamic lubricated gears with the merit of energy conservation by the wall slippage are reviewed. The principle for designing these hydrodynamic contacts is to artificially set the wall slippage on the stationary surface in the hydrodynamic inlet zone. To design the wall slippage on the moving surface in the hydrodynamic outlet zone can also give additional benefits. The technical merits of these mechanical components are the improved load-carrying capacity and the lowed friction coefficient, i.e., the energy conservation due to the wall slippage. Owing to the designed wall slippage, the carried load of the hydrodynamic step bearing can be increased by 200%~400% while its friction coefficient can be reduced by 50%~85%, and the load-carrying capacity of the hydrodynamic journal bearing can be increased by nearly 100% while at the same time, its friction coefficient can be reduced by more than 60%. For hydrodynamic lubricated gear contacts, by covering ultrahydrophobic or oilphobic coatings on the slower moving surface, the friction coefficient can be approaching to vanishing and the contact load-carrying capacity can be increased very significantly for large slide-roll ratios under medium or heavy loads.

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具有壁滑移的节能流体动力润滑部件

综述了具有壁面滑移节能优点的流体动力推力滑动轴承和轴颈轴承以及流体动力润滑齿轮。设计这些流体动力学接触的原理是在流体动力学入口区的固定表面上人为设置壁滑移。设计流体动力学出口区中移动表面上的壁滑移也可以带来额外的好处。这些机械部件的技术优点是提高了承载能力和降低了摩擦系数，即由于壁面滑移而节省了能量。由于设计的壁面滑移，动压阶梯轴承的承载力可增加200%～400%，摩擦系数可降低50%～85%，动压径向滑动轴承的承载能力可提高近100%，同时摩擦系数可减少60%以上。对于流体动力润滑的齿轮接触，通过在较慢移动的表面上覆盖超疏水或疏油涂层，摩擦系数可以接近消失，并且在中等或重负载下，对于大滑动辊比，接触承载能力可以显著提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Rotating Machinery ENGINEERING, MECHANICAL-

CiteScore

2.40

自引率

0.00%

发文量

审稿时长

25 weeks

期刊介绍： This comprehensive journal provides the latest information on rotating machines and machine elements. This technology has become essential to many industrial processes, including gas-, steam-, water-, or wind-driven turbines at power generation systems, and in food processing, automobile and airplane engines, heating, refrigeration, air conditioning, and chemical or petroleum refining. In spite of the importance of rotating machinery and the huge financial resources involved in the industry, only a few publications distribute research and development information on the prime movers. This journal is the first source to combine the technology, as it applies to all of these specialties, previously scattered throughout literature.