Visualization of oil-lubrication ball bearings at high rotational speeds

IF 2 Q2 ENGINEERING, MECHANICAL
Mamoru Tohyama, Yasuhiro Ohmiya, Michiru Hirose, Hiroki Matsuyama, Takuya Toda, Kenichi Hasegawa, Takaaki Onizuka, Hideaki Sato, Masahiro Yokoi, Norikazu Sato
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Abstract

Deep-groove ball bearings for the eAxles of electric vehicles must adapt to higher rotational speed conditions because the speed of eAxle motors have been increasing as the size and weight of the motors decrease. Therefore, understanding the oil-lubricated conditions inside ball bearings at high rotational speeds is essential for optimizing their design for eAxles. To clarify the oil-lubricated conditions inside ball bearings at these high speeds, a new test apparatus was developed. This apparatus is capable of simultaneously measuring the friction torque of deep-groove ball bearings, the oil-film thickness on the rolling balls, and observing the oil distributions inside the bearings at rotational speeds up to 20,000 min-1. The oil-film thickness was measured using three-wavelength optical interferometry, and the oil distribution was observed using fluorescence. It was found that the oil-film thickness became constant at rotational speed conditions exceeding approximately 7,700 min-1. Oil starvations were observed on the raceway around the rolling ball, and these regions increased with increasing rotational speeds. Additionally, in the deep-groove ball bearing with a crown-shaped cage, the oil was mainly supplied to the rolling balls from the inner ring side through the space between the cage claws that held the ball. Moreover, the amount of mixed air tended to increase as the rotational speed increased to approximately 7,700 min-1. Those oil starvations and increasing air in oils were considered to be factors that prevent the increase in oil-film thickness. The findings of the reported study will contribute to the development of multibody dynamic technology for high-speed ball bearings necessary in electric vehicles.
高转速下油润滑球轴承的可视化
电动汽车车桥用深沟球轴承必须适应更高的转速条件,因为随着电动汽车车桥电机尺寸和重量的减小,电机的转速也在不断提高。因此,了解高速旋转时球轴承内部的油润滑条件对于优化电动车车桥用球轴承的设计至关重要。为了弄清高速旋转时球轴承内部的油润滑状况,我们开发了一种新的测试仪器。该仪器能够同时测量深沟球轴承的摩擦力矩、滚珠上的油膜厚度,并观察转速高达 20,000 min-1 时轴承内部的油分布情况。使用三波长光学干涉仪测量了油膜厚度,并使用荧光法观察了油的分布。结果发现,在转速超过约 7,700 min-1 时,油膜厚度保持不变。在滚珠周围的滚道上观察到了油星痕,这些区域随着转速的增加而增大。此外,在带冠状保持架的深沟球轴承中,润滑油主要通过保持架爪之间的空间从内圈侧供给滚动球。此外,当转速提高到大约 7 700 min-1 时,混合气体的数量有增加的趋势。这些油星动和油中空气的增加被认为是阻碍油膜厚度增加的因素。报告中的研究结果将有助于电动汽车所需的高速球轴承多体动力学技术的发展。
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
Frontiers in Mechanical Engineering
Frontiers in Mechanical Engineering Engineering-Industrial and Manufacturing Engineering
CiteScore
4.40
自引率
0.00%
发文量
115
审稿时长
14 weeks
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