Finite Element Analysis of the O-ring Behavior Under Uniform Squeeze Levels and Internal Pressure

Q3 Engineering WSEAS Transactions on Applied and Theoretical Mechanics Pub Date : 2022-12-31 DOI:10.37394/232011.2022.17.27

E. E. El Bahloul, H. Aissaoui, M. Diany, E. Boudaia, S. Touairi

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Abstract

he variety of applications, in all industrial fields, whether for routine use or a specific application, requires the design of increasingly efficient sealing systems. O-rings are fundamental elements in many industrial devices and machines, thanks to advantages such as low cost, small size, cleanliness, and ease of assembly. Moreover, the O-ring is available in thousands of dimensions. In this work, the analysis of the mechanical and leakage behavior of the O-ring seal, when installed either in a groove or between two plates, is presented. The behavior of the assemblies in both scenarios when the clamping force and fluid pressure are applied is investigated using two numerical models generated with Ansys software. The numerical model findings are compared to the analytical approach based on Hertz contact theory and other researchers' experimental results. This study shows that the use of a groove to ensure the mounting of elastomeric O-rings is important in pressurized installations. Furthermore, for different pressure conditions, the reliability of the O-ring strongly depends on three parameters: compression ratio of the seal, the hardness of the seal, and the friction coefficient.

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均匀挤压水平和内压作用下O形环性能的有限元分析

在所有工业领域中的各种应用，无论是日常使用还是特定应用，都需要设计越来越高效的密封系统。O型环是许多工业设备和机器的基本元件，具有成本低、体积小、清洁和易于组装等优点。此外，O型环有数千种尺寸可供选择。在这项工作中，分析了O形密封圈安装在凹槽中或两块板之间时的机械和泄漏行为。使用Ansys软件生成的两个数值模型研究了在施加夹紧力和流体压力的两种情况下组件的行为。将数值模型的发现与基于赫兹接触理论和其他研究人员实验结果的分析方法进行了比较。这项研究表明，在加压装置中，使用凹槽来确保弹性O型环的安装是重要的。此外，对于不同的压力条件，O型环的可靠性在很大程度上取决于三个参数：密封件的压缩比、密封件的硬度和摩擦系数。

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WSEAS Transactions on Applied and Theoretical Mechanics Engineering-Computational Mechanics

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1.30

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期刊介绍： WSEAS Transactions on Applied and Theoretical Mechanics publishes original research papers relating to computational and experimental mechanics. We aim to bring important work to a wide international audience and therefore only publish papers of exceptional scientific value that advance our understanding of these particular areas. The research presented must transcend the limits of case studies, while both experimental and theoretical studies are accepted. It is a multi-disciplinary journal and therefore its content mirrors the diverse interests and approaches of scholars involved with fluid-structure interaction, impact and multibody dynamics, nonlinear dynamics, structural dynamics and related areas. We also welcome scholarly contributions from officials with government agencies, international agencies, and non-governmental organizations.