Stability of viscoelastic film on a slippery inclined plane

Shaofeng Du, Yue Xiao, Qiao Li, Shaowei Wang, Moli Zhao
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Abstract

The linear and weakly nonlinear stability of viscoelastic film flowing down a slippery inclined plane is investigated analytically. Under the assumption of the long wave approximation, the first-order Benny equation of Oldroyd-B fluid thin film with slip condition is obtained. Through the normal mode analysis, the neutral stability curve and the temporal growth rates are calculated to explore the linear stability of the film. Linear results show that the critical Reynolds number decreases with the increase in slip length and viscoelastic parameter and that the liquid film may exhibit pure elastic instability. For the nonlinear stability analysis, both hydrodynamic instability and elastic instability are discussed. The primary bifurcations in the phase plane are identified by calculating the Landau coefficient, i.e., the unconditional stable region, the supercritical region, the subcritical region, and the explosive region. The dependence of primary bifurcation regions upon the slip length and Deborah number are studied, and the results indicate that the slip boundary and viscoelasticity destabilizes the flow. According to the Ginzburg–Landau equation, the threshold amplitude of the nonlinear equilibrium solution is analyzed as well.
粘弹性薄膜在湿滑斜面上的稳定性
通过分析研究了粘弹性薄膜在滑动斜面上流动的线性和弱非线性稳定性。在长波近似假设下,得到了具有滑移条件的 Oldroyd-B 流体薄膜的一阶 Benny 方程。通过法模分析,计算了中性稳定曲线和时间增长率,以探讨薄膜的线性稳定性。线性结果表明,临界雷诺数随滑移长度和粘弹性参数的增加而减小,液膜可能表现出纯弹性不稳定性。在非线性稳定性分析中,讨论了流体力学不稳定性和弹性不稳定性。通过计算朗道系数,确定了相平面上的主要分岔点,即无条件稳定区、超临界区、亚临界区和爆炸区。研究了主分岔区与滑移长度和德博拉数的关系,结果表明滑移边界和粘弹性破坏了流动的稳定性。根据金兹堡-朗道方程,还分析了非线性平衡解的阈值振幅。
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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