The Resource of Movable Sealing Joints with the O-Ring Seal

Mordovia University Bulletin Pub Date : 2018-12-28 DOI:10.15507/0236-2910.028.201804.562-582

V. V. Kuznetsov

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Abstract

Introduction. The problem of reliability of hydraulic drives sealing joints remains unsolved. However, the current level of computer modeling tools development allows us to solve effectively the problems of their longevity by replacing laborious experiments with high-performance computing. This paper presents the results of the approbation of the author's methodology for realizing computational approaches to determining the life of sealing joints on the basis of circular cross-section seal of hydraulic booster for MTZ (Minsk Tractor Works) tractors. Materials and Methods. The determination of mobile sealing joints resource is based on the author's methodology, which used ANSYS for realizing a series of accelerated loading cycles that simulates real operating conditions. The developed models consider the processes of wearing, relaxation and hydrodynamic effects acting in a sealing joint. Results. The use of the finite element modeling tools made it possible to determine the change in the stress-strain state of the power steering tightener in MTZ tractors during operation. The mechanism of joint tightness restoration on the basis of self-packing effect is revealed. The comparison of the forms of sections, obtained as a result of numerical and micrometer studies, confirms the effectiveness of the proposed methodology and the adequacy of the results obtained. The analysis of the obtained graphs shows that under normal operating conditions, the life of the sealing joint “cylinder ‒ piston” and “rod ‒ cover” is 2 and 1.12 years respectively, and as the temperature and pressure of the hydraulic fluid increase, decreases exponentially. Conclusions. The results of the study show the high efficiency of the author's methodology. This technique can be used in researches to determine the resource and criteria for the leak-tightness of sealing joints. The graphs of the dependence of the sealing joints life on temperature and hydraulic pressure allow companies, specializing in the creation and repair of hydraulic drives, to develop schedules of preventive measures for their maintenance considering a complex of operational factors. Keywords: seal, O-ring, hydraulic drive, reliability, life, service life, wear, relaxation, ANSYS, finite element analysis Acknowledgements: The study was supported by the Russian Foundation for Basic Research and the Government of the Republic of Mordovia in the framework of the project “Obtaining and research of new composite polymeric materials containing finely dispersed and nanosized modifiers for machine tribo-conjugation elements” (Grant No. 18- 48-130007а_р). For citation: Kuznetsov V. V. The Resource of Movable Sealing Joints with the O-Ring Seal. Vestnik Mordovskogo universiteta = Mordovia University Bulletin. 2018; 28(4):562–582. DOI: https://doi.org/10.15507/0236-2910.028.201804.562-582

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o型圈密封活动密封接头的资源

介绍。液压传动密封接头的可靠性问题一直没有得到解决。然而，目前计算机建模工具的发展水平允许我们通过用高性能计算取代费力的实验来有效地解决它们的寿命问题。本文以明斯克拖拉机厂(MTZ)拖拉机液压助力器圆截面密封为例，介绍了作者提出的确定密封接头寿命的计算方法的验证结果。材料与方法。移动密封接头资源的确定基于作者的方法，该方法利用ANSYS实现了一系列模拟真实工况的加速加载循环。所建立的模型考虑了密封接头的磨损、松弛和水动力作用过程。结果。利用有限元建模工具，可以确定MTZ拖拉机动力转向收紧器在运行过程中的应力-应变状态变化。揭示了基于自填充效应的接缝密闭性恢复机理。通过数值和千分尺研究获得的截面形式的比较，证实了所提出方法的有效性和所获得结果的充分性。对得到的曲线图分析表明，在正常工况下，密封接头“缸-活塞”和“杆-盖”的寿命分别为2年和1.12年，随着液压油温度和压力的增加，寿命呈指数递减。结论。研究结果表明，作者的方法是高效的。该技术可用于研究确定密封接头的气密性来源和标准。密封接头寿命与温度和液压的关系曲线图使专门从事液压驱动器制造和维修的公司能够考虑到复杂的操作因素，为其维护制定预防措施的时间表。关键词:密封圈，o型圈，液压传动，可靠性，寿命，使用寿命，磨损，松弛，ANSYS，有限元分析。致谢:本研究由俄罗斯基础研究基金会和摩尔多瓦共和国政府在“获得和研究含有精细分散和纳米级机械摩擦共轭元件改性剂的新型复合聚合物材料”项目框架下支持(批准号18- 48-130007)。引证:库兹涅佐夫V. V. o型圈密封活动密封接头的资源。Vestnik Mordovskogo universiteta =莫尔多维亚大学公报2018;28(4): 562 - 582。DOI: https://doi.org/10.15507/0236 - 2910.028.201804.562 - 582

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Mordovia University Bulletin MULTIDISCIPLINARY SCIENCES-

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