温度和毛细管数对各种材料润湿性和接触角滞后的影响考虑孔隙率的建模

IF 3.9 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
S.Y. Misyura , V.S. Morozov , V.A. Andryushchenko , E.G. Orlova
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引用次数: 0

摘要

研究考虑了表面温度和激光纹理对铜、Cu/G、AlMg3、Cu-SiC 的润湿性和接触角滞后的影响。分子动力学建模定性地证实了实验结果:1)纹理表面的接触角滞后增加;2)表面润湿性对接触角滞后的影响;3)接触线速度对接触角滞后的影响。加热不同复合材料的样品会导致接触角增大或减小。研究表明,激光纹理加工后,材料表层形成了纳米微孔系统,这导致铜-碳化硅复合材料的接触角滞后异常高。本文提出了一个新模型,用于解释不同研究中接触角滞后随毛细管数(Ca)增加以及样品温度升高而产生的不同定性行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of temperature and capillary number on wettability and contact angle hysteresis of various materials. Modeling taking into account porosity
The effect of surface temperature and laser texturing on the wettability and contact angle hysteresis of Cu, Cu/G, AlMg3, Cu-SiC was considered. Modeling using molecular dynamics qualitatively confirms the experimental results: 1) an increase in the contact angle hysteresis on a textured surface; 2) influence of the surface wettability on contact angle hysteresis; 3) influence of the contact line velocity on contact angle hysteresis. Heating the sample of different composite materials can lead to either an increase in the contact angle or a decrease. It was shown that after laser texturing, a system of nano-micro pores was formed in the surface layer of the material, which leads to an abnormally high contact angle hysteresis on the Cu-SiC composite. A new model is proposed that explains the different qualitative behavior of the contact angle hysteresis in different studies with increasing capillary number (Ca), as well as with increasing sample temperature.
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来源期刊
CiteScore
5.60
自引率
2.80%
发文量
481
审稿时长
3.5 months
期刊介绍: The journal provides an international medium for the publication of theoretical and experimental studies and reviews related to the electronic, electrochemical, ionic, magnetic, optical, and biosensing properties of solid state materials in bulk, thin film and particulate forms. Papers dealing with synthesis, processing, characterization, structure, physical properties and computational aspects of nano-crystalline, crystalline, amorphous and glassy forms of ceramics, semiconductors, layered insertion compounds, low-dimensional compounds and systems, fast-ion conductors, polymers and dielectrics are viewed as suitable for publication. Articles focused on nano-structured aspects of these advanced solid-state materials will also be considered suitable.
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