Szabó, György and Váradi, Károly (2018) Thermal-Mechanical Coupled FE Analysis for Rotary Shaft Seals. Modern Mechanical Engineering, 08 (01). pp. 95-110. ISSN 2164-0165
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Abstract
The aim of this paper is to model the steady-state condition of a rotary shaft seal (RSS) system. For this, an iterative thermal-mechanical algorithm was developed based on incremental finite element analyzes. The behavior of the seal’s rubber material was taken into account by a large-strain viscoelastic, so called generalized Maxwell model, based on Dynamic Mechanical Thermal Analyses (DMTA) and tensile measurements. The pre-loaded garter spring was modelled with a bilinear material model and the shaft was assumed to be linear elastic. The density, coefficient of thermal expansion and the thermal conductance of the materials were taken into consideration during simulation. The friction between the rotary shaft seal and the shaft was simplified and modelled as a constant parameter. The iterative algorithm was evaluated at two different times, right after assembly and 1 h after assembly, so that rubber material’s stress relaxation effects are also incorporated. The results show good correlation with the literature data, which state that the permissible temperature for NBR70 (nitrile butadiene rubber) material contacting with ~80 mm shaft diameter, rotating at 2600/min is 100°C. The results show 107°C and 104°C for the two iterations. The effect of friction induced temperature, changes the width of the contact area between the seal and the shaft, and significantly reduces the contact pressure.
Item Type: | Article |
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Subjects: | AP Academic Press > Engineering |
Depositing User: | Unnamed user with email support@apacademicpress.com |
Date Deposited: | 17 Mar 2023 06:50 |
Last Modified: | 05 Sep 2024 11:00 |
URI: | http://info.openarchivespress.com/id/eprint/755 |