Thermodynamic analysis of hybrid ceramic bearings with metal inner rings

IF 0.8 Q4 THERMODYNAMICS

Archives of Thermodynamics Pub Date : 2023-12-04 DOI:10.24425/ather.2023.147538

Jian Sun, Guangxiang Zhang, Junxing Tian, Yusheng Zhu

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引用次数: 0

Abstract

For the sake of exploring the thermodynamic characteristics of hybrid ceramic bearings with metal inner rings in the application process, we established the mathematical model of bearings with metal inner rings based on the thermodynamics of bearings. The heat of the bearings, inner and outer raceway, and the deformation of bearings were calculated by the thermodynamic model. We used the bearing life testing machine to test the bearing load and speed. The consequences indicate that the temperature stability time of a hybrid ceramic bearing with the metal inner ring is about 6 hours after loading, and its temperature is about 1–2 ◦ C higher than that of a metal bearing. Under the condition of a certain speed, the stable temperature of bearing operation improves with the enlargement of the load. Under the condition of a certain load, the bearing temperature also improves with the enlargement of bearing speed. The overall temperature trend of the bearing outer ring is unanimous with the overall temperature value calculated by the model. The maximum error is between 2.2 and 2.4 ◦ C. The thermodynamic analysis of hybrid bearings with metal inner rings is conducive to a better study of the eﬀect of bearing material characteristics on bearing performance.

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带金属内圈的混合陶瓷轴承的热力学分析

为了探索金属内圈混合陶瓷轴承在应用过程中的热力学特性，我们基于轴承热力学建立了金属内圈轴承的数学模型。通过热力学模型计算了轴承、内外滚道的热量和轴承的变形。我们使用轴承寿命试验机测试轴承载荷和转速。结果表明，金属内圈混合陶瓷轴承加载后的温度稳定时间约为6小时，其温度比金属轴承高约1-2◦C。在一定转速的条件下，轴承运行的稳定温度随着载荷的增大而提高。在一定载荷条件下，轴承温度也随着轴承转速的增大而提高。轴承外圈的整体温度趋势与模型计算的整体温度值一致。最大误差在2.2 ~ 2.4◦c之间，对金属内圈混合动力轴承进行热力学分析，有利于更好地研究轴承材料特性对轴承性能的影响。

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

Archives of Thermodynamics THERMODYNAMICS-

CiteScore

1.80

自引率

22.20%

发文量

期刊介绍： The aim of the Archives of Thermodynamics is to disseminate knowledge between scientists and engineers interested in thermodynamics and heat transfer and to provide a forum for original research conducted in Central and Eastern Europe, as well as all over the world. The journal encompass all aspect of the field, ranging from classical thermodynamics, through conduction heat transfer to thermodynamic aspects of multiphase flow. Both theoretical and applied contributions are welcome. Only original papers written in English are consider for publication.