Finite Element Simulation of Unsteady Viscoelastic Flow by Using Leonov Model

Journal of the Textile Machinery Society of Japan Pub Date : 1995-01-01 DOI:10.4188/JTE1955.41.1

K. Nakamura, Takehiro Yamamoto

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Abstract

Many numerical simulations for viscoelastic fluids have been carried out. Most of them deal with steady flows and there are few analyses dealing with unsteady flows. Transient behavior of viscoelastic flows in unsteady state is more complex than that of Newtonian flows. Further, such a behavior is often observed in polymer processing, such as injection molding and has an influence on the quality of products. In this respect, it is important to understand the properties of viscoelastic fluids in unsteady flow.In the present paper, unsteady viscoelastic flows were studied using the finite element method. The Leonov model has been used to represent the rheological behavior of viscoelastic fluid. We numerically analyzed a start-up flow problem in channels with 4:1 and 8:3 abrupt contraction for polystyrene STYRON 678 at 190°C, and obtained the predictions of transient behavior of velocity and stress fields. In the present paper, the results of velocity field are reported and in the second, stress field will be reported.The results obtained from the simulation are as follows, (1) overshoot in velocity near the contraction is predicted, and (2) vortex occurs in the corner region and the size of the vortex changes with time.

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基于Leonov模型的非定常粘弹性流动有限元模拟

许多粘弹性流体的数值模拟已经完成。这些分析大多是针对定常流动的，而针对非定常流动的分析很少。粘弹性流动在非定常状态下的瞬态行为比牛顿流动更为复杂。此外，这种行为在聚合物加工中经常观察到，例如注塑成型，并对产品质量产生影响。在这方面，了解粘弹性流体在非定常流中的性质是很重要的。本文采用有限元方法对非定常粘弹性流动进行了研究。用列昂诺夫模型来描述粘弹性流体的流变行为。数值分析了聚苯乙烯- STYRON 678在190℃条件下4∶1和8∶3突然收缩通道中的启动流动问题，得到了速度场和应力场的瞬态行为预测。本文首先报道速度场的结果，其次报道应力场的结果。仿真结果表明:(1)预测了收缩附近的速度超调;(2)在转角区域出现涡，且涡的大小随时间变化。

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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Journal of the Textile Machinery Society of Japan

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