Department of Metallurgical and Materials Engineering, Indian Institute of Technology Madras, Chennai 600036, India.
J Chem Phys. 2017 Jun 7;146(21):214706. doi: 10.1063/1.4984610.
The model problem examined here is the stability of a thin liquid film consisting of two miscible components, resting on a chemically patterned solid substrate and heated from below. In addition to surface tension gradients, the temperature variations also induce gradients in the concentration of the film by virtue of thermodiffusion/Soret effects. We study the stability and dewetting behaviour due to the coupled interplay between thermal gradients, Soret effects, long-range van der Waals forces, and wettability gradient-driven flows. Linear stability analysis is first employed to predict growth rates and the critical Marangoni number for chemically homogeneous surfaces. Then, nonlinear simulations are performed to unravel the interfacial dynamics and possible locations of the film rupture on chemically patterned substrates. Results suggest that appropriate tuning of the Soret parameter and its direction, in conjunction with either heating or cooling, can help manipulate the location and time scales of the film rupture. The Soret effect can either potentially aid or oppose film instability depending on whether the thermal and solutal contributions to flow are cooperative or opposed to each other.
本文研究的模型问题是由两种可混溶成分组成的薄液膜的稳定性,该液膜位于化学图案化的固体基底上,并从下方加热。除了表面张力梯度外,温度变化还通过热扩散/索雷特效应在膜的浓度中引起梯度。我们研究了由于热梯度、索雷特效应、长程范德华力和润湿性梯度驱动流的耦合相互作用导致的不稳定性和去湿行为。首先采用线性稳定性分析来预测化学均匀表面的增长率和临界马兰戈尼数。然后,进行非线性模拟以揭示界面动力学和薄膜在化学图案化基底上破裂的可能位置。结果表明,适当调整索雷特参数及其方向,结合加热或冷却,可以帮助控制薄膜破裂的位置和时间尺度。索雷特效应可能有助于或反对薄膜不稳定性,这取决于热和溶质对流动的贡献是相互合作还是相互反对。