基于不同黏压模型的空间液体润滑剂弹流油膜厚度的研究

Research on Elastohydrodynamic Film Thickness for Space Lubricant Based on Different Pressure-Viscosity Model

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摘要基于牛顿流变模型针对空间液体润滑剂进行等温线接触弹流润滑数值分析。在相同工况下,采用Barus模型、Roelands模型和Yasutomi自由体积黏度模型分别计算空间液体润滑剂的弹流油膜厚度,并与实验结果进行比较。结果表明:Yasutomi自由体积黏度模型更能真实地反应空间液体润滑剂的黏压关系;与其他黏压方程相比,由于Yasutomi自由体积黏度模型在低压区域产生较高的黏度,因而得到较高的油膜厚度。 Based on Newtonian rheological model, theoretical analysis of EHL was conducted for space lubricants. The EHL film thickness of space lubricants was calculated by three kinds of pressure-viscosity models, Barus model, Roelands model and Yasutomi free-volume viscosity model, the calculated results were compared with the experimental results. The results show the Yasutomi free-volume viscosity model can reflect the pressure-viscosity relationship of space lubricants well. Compared with the other two pressure-viscosity equations, the Yasutomi free-volume viscosity model produces higher film thickness for the higher viscosity in low-pressure area.

作者刘剑平张新义于春战

机构地区山东理工大学山东淄博北京邮电大学北京

出处《润滑与密封》 CAS CSCD 北大核心 2011年第9期73-76,共4页 Lubrication Engineering

关键词空间液体润滑剂 Yasutomi自由体积黏度模型弹流油膜厚度 space liquid lubricants the Yasutomi free-volume viscosity model EHL film thickness

分类号 TH117.2 [机械工程—机械设计及理论]

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润滑与密封

2011年第9期

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基于不同黏压模型的空间液体润滑剂弹流油膜厚度的研究

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