Microscale Surface Defects Influence on Thermally Sprayed Alumina Droplets Deformation Dynamics

0 ENGINEERING, MECHANICAL ASME journal of heat and mass transfer Pub Date : 2024-02-09 DOI:10.1115/1.4064708
Aleksandra Nastic, Larry Pershin, Prof. Javad Mostaghimi
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Abstract

During plasma spraying, interaction between splats and surface micro-sized features can be critical to the splat dynamic progress and consequently to the coating microstructural development and interfacial bonding. The transient spreading of molten alumina impacting a flat substrate exhibiting micro-obstructions, commonly produced during surface machining, grinding and/or even polishing, is numerically investigated using a three-dimensional model comprising of splat solidification and shrinkage developments. Single isolated splats are also experimentally characterized using top surface scanning electron microscope (SEM) analysis. Droplets impacting directly onto a micro-sized surface protuberance show no signs of pre-mature splashing behavior. The microscopic features (˂5µm) are not able to generate flow instabilities to initially affect the splat inherent overall spreading. However, subsequent splat peripheral contact with target surface micro-obstructions, characterized by peak and valley features, induces peripheral lift, waviness, and instability. It follows that the ejected destabilized material shears/fractures during stretching triggering the formation of splash fingers. Solidification plays a major role in detracting the role of surface micro-obstructions, i.e. surface roughness, in splashing phenomena.
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微尺度表面缺陷对热喷涂氧化铝液滴变形动力学的影响
在等离子喷涂过程中,飞溅物与表面微小特征之间的相互作用对飞溅物的动态发展至关重要,进而影响涂层的微观结构发展和界面结合。熔融氧化铝撞击平面基底(通常在表面加工、研磨和/或甚至抛光过程中产生)时产生的微观结构的瞬态扩散,通过一个包含飞溅凝固和收缩发展的三维模型进行了数值研究。此外,还使用顶面扫描电子显微镜(SEM)分析法对单个孤立飞溅进行了实验表征。直接撞击到微小表面突起上的液滴没有显示出成熟前的飞溅行为。这些微观特征(˂5µm)无法产生流动不稳定性,因而最初不会影响飞溅固有的整体扩散。然而,随后飞溅物与目标表面微观结构的外围接触(以峰值和谷值特征为特征)会诱发外围升力、波浪和不稳定性。由此可见,喷射出的不稳定材料在拉伸过程中会发生剪切/断裂,从而引发飞溅指的形成。凝固在减少表面微结构(即表面粗糙度)在飞溅现象中的作用方面发挥了重要作用。
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