Experimental Detection of Lubrication Characteristics in a Solid–Liquid Two-Phase Flow Supported Bearing-Rotor System Using Vibration Monitoring Techniques

IF 2 3区 工程技术 Q2 ENGINEERING, MECHANICAL Tribology Transactions Pub Date : 2023-08-24 DOI:10.1080/10402004.2023.2251536
Yi Zhang, Wen Wang, G. Wang, Peng Huang, Jimin Xu, Kun Liu
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Abstract

Abstract This work aims to investigate the friction and vibration behaviors of a liquid–solid two-phase flow supported bearing-rotor system for the early monitoring and assessing of oil contamination resulting from externally ingested particles. Based on a Jeffcott rotor test rig, the lubricating oil in journal bearing was mixed with micron-scale silica particles of different sizes and concentrations. The vibration monitoring techniques utilizing eddy current, photoelectric, and piezoelectric sensors were conducted to detect the rotor displacement amplitude and bearing acceleration online. According to the quantitative evaluation, the vibration frequency spectrum, shaft trajectory, and the bearing surface characteristics were analyzed and classified at different conditions of particle parameters. Furthermore, the lubricating mechanism at bearing interface which possesses a strong interactive coupling effect with rotor vibration was deduced and illustrated. The results showed that although the sizes of ingested micron particles were less than the minimum oil-film thickness, they usually exhibited detrimental effects on the flow stability and fluid support. As the particle size or concentration increased, the interaction between particles and bearing surfaces led to the burrs in time-domain waveform, reverse displacements in rotor orbit, higher frequency harmonics in vibration spectrum, and the scratches on the bearing surface. The occurrence of continuous three-body friction could induce misalignment, blockage, oil starvation, and rub-impact fault. Furthermore, the detectability of particle contamination and damage microstructure of bearing surface was described for reference.
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基于振动监测技术的固液两相流支承轴承-转子系统润滑特性实验检测
摘要本研究旨在研究液固两相流支承轴承-转子系统的摩擦和振动特性,为外源颗粒污染的早期监测和评估提供依据。基于Jeffcott转子试验台,将不同粒径和浓度的微米级二氧化硅颗粒掺入滑动轴承润滑油中。采用涡流传感器、光电传感器和压电传感器对转子位移幅值和轴承加速度进行在线监测。在定量评价的基础上,对不同颗粒参数条件下的振动频谱、轴轨迹和轴承表面特性进行了分析和分类。推导并说明了与转子振动具有强交互耦合作用的轴承界面润滑机理。结果表明,虽然吸入的微米颗粒的尺寸小于最小油膜厚度,但它们通常对流动稳定性和流体支撑产生不利影响。随着颗粒尺寸或浓度的增加,颗粒与轴承表面的相互作用导致时域波形出现毛刺,转子轨道出现反向位移,振动谱出现高频谐波,轴承表面出现划痕。连续三体摩擦的发生,会引起不对中、堵塞、缺油和碰摩故障。此外,还对轴承表面颗粒污染和损伤显微组织的可检测性进行了描述,以供参考。
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来源期刊
Tribology Transactions
Tribology Transactions 工程技术-工程:机械
CiteScore
3.90
自引率
4.80%
发文量
82
审稿时长
4 months
期刊介绍: Tribology Transactions contains experimental and theoretical papers on friction, wear, lubricants, lubrication, materials, machines and moving components, from the macro- to the nano-scale. The papers will be of interest to academic, industrial and government researchers and technologists working in many fields, including: Aerospace, Agriculture & Forest, Appliances, Automotive, Bearings, Biomedical Devices, Condition Monitoring, Engines, Gears, Industrial Engineering, Lubricants, Lubricant Additives, Magnetic Data Storage, Manufacturing, Marine, Materials, MEMs and NEMs, Mining, Power Generation, Metalworking Fluids, Seals, Surface Engineering and Testing and Analysis. All submitted manuscripts are subject to initial appraisal by the Editor-in-Chief and, if found suitable for further consideration, are submitted for peer review by independent, anonymous expert referees. All peer review in single blind and submission is online via ScholarOne Manuscripts.
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