Tribomonitoring of the quality of aviation hydraulic oils according to lubricity and rheological indicators

Problemi tribologii Pub Date : 2023-03-17 DOI:10.31891/2079-1372-2023-107-1-34-40

O. Ilina, O. O. Mikosianchyk, O. Yashchuk, R.H. Mnatsakanov, N.M. Berezivskyi

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Abstract

The study proposes a diagnostic control method for assessing the quality of commercial batches of hydraulic oils based on the kinetics of changes in the thickness of lubricating layers, shear stresses of the lubricating material, and effective viscosity in tribotechnical contact. Timely and high-quality tribomonitoring of lubricants provides a perspective on their rational use and reduced wear of equipment parts. The developed methodology simulates the operation of gears in rolling conditions with a slip of 30% using a roller analogy. Samples of AMG-10 oil from two manufacturers were analyzed. For "Bora B" AMG-10 oil (sample 1) with gradients of the sliding speed of the lubricating layer in contact from 5.63·103 to 5.73·105 с-1, the effective viscosity is set at the level of 4249 and 5039 Pa·s at a bulk oil temperature of 20 and 100 oС, respectively, which indicates the resistance of oil components to destruction under conditions of increasing shear rate gradient. For AMG-10 oil (sample 2), the effective contact viscosity decreases by 1.53 times both at an oil temperature of 20 oС and at 100 oС and is 2764 Pa·s (at 20 oС) and 3309 Pa·s (at 100 oС), which indicates the destruction of the components of the lubricant. For "Bora B" AMG-10 oil, effective lubricating properties have been established both during the start-up period and at maximum revolutions in conditions of rolling with slipping. It was shown that at start-up, regardless of the temperature of the lubricant, the mixed lubrication mode dominates. At the maximum revolutions of the tested samples, the hydrodynamic lubrication mode dominates, which indicates the effective lubricating properties of the Bora B AMG-10 oil. According to the kinetics of changes in the rheological parameters of oils, it was established that the resistance of the lubricant's components to mechano-thermal destruction under non-stationary lubrication conditions contributes to the effective formation of a lubricating layer in contact with a high bearing capacity

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根据润滑性和流变性指标对航空液压油质量进行摩擦学监测

该研究提出了一种诊断控制方法，用于根据润滑层厚度、润滑材料剪切应力和摩擦技术接触中有效粘度的变化动力学来评估商业批次液压油的质量。及时和高质量的润滑油摩擦监测为合理使用润滑油和减少设备零件磨损提供了一个视角。所开发的方法模拟了齿轮在滚动条件下的运行，滑动率为30%。对来自两个制造商的AMG-10油样品进行了分析。对于“Bora B”AMG-10油（样品1），接触润滑层的滑动速度梯度为5.63·103至5.73·105с-1，在20和100°C的整体油温下，有效粘度分别设定为4249和5039 Pa·s，这表明在剪切速率梯度增加的条件下，油组分的抗破坏性。对于AMG-10油（样品2），在20°C和100°C的油温下，有效接触粘度均降低了1.53倍，分别为2764 Pa·s（20°C）和3309 Pa·s。对于“Bora B”AMG-10油，在启动期间和打滑滚动条件下的最大转速下都已建立了有效的润滑性能。研究表明，在启动时，无论润滑剂的温度如何，混合润滑模式都占主导地位。在测试样品的最大转速下，流体动力学润滑模式占主导地位，这表明Bora B AMG-10油的有效润滑性能。根据油流变参数的变化动力学，确定了在非平稳润滑条件下，润滑剂成分对机械热破坏的抵抗力有助于有效形成与高承载能力接触的润滑层

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来源期刊

Problemi tribologii

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审稿时长

10 weeks