These experimental investigations are designed to study shock wave characteristics and spray structure. Supersonic liq- uid jets injected into ambient fields are empirically studied using projectile impacts in a two-stage light gas gun. This study looks primarily at the design of the nozzle assembly, the tip velocity of the high speed jet, the structure of the spray jet and the shock wave generation process. The supersonic liquid jets were visualized using an ultra high-speed camera and the schlieren system for visualization to quantitatively analyze the shock wave angle. The experimental re- sults with straight cone nozzle types and various non-Newtonian fluid viscosities are presented in this paper. The effects of nozzle geometry on the jet behavior are described. The characteristics of the shock wave generation and spray jet structure were found to be significantly related to the nozzle geometry. The expansion gases accelerated the projectile, which had a mass of 6 grams, from 250 m/s. As a result, it was found that the maximum jet velocity appeared in the liquid jet with high viscosity properties. Supersonic liquid jets, which occurred at the leading edge the shock waves and the compression waves in front of the jets, were observed. Also, the shock waves significantly affected the atomization process for each spray droplet.
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机译:这些实验研究旨在研究冲击波特性和喷雾结构。对射入环境场的超音速液体射流使用两级轻气枪中的射弹冲击进行了经验研究。这项研究主要着眼于喷嘴组件的设计,高速喷嘴的尖端速度,喷嘴结构和冲击波产生过程。使用超高速相机和schlieren系统对超音速液体射流进行可视化,以可视化方式定量分析冲击波角。本文介绍了直锥喷嘴类型和各种非牛顿流体粘度的实验结果。描述了喷嘴几何形状对喷射行为的影响。发现冲击波产生和喷射结构的特征与喷嘴的几何形状显着相关。膨胀气体从250 m / s加速了质量为6克的弹丸。结果发现,在具有高粘度特性的液体射流中出现了最大射流速度。观察到超音速液体射流,该液体发生在射流前缘的冲击波和压缩波。而且,冲击波显着影响每个喷雾液滴的雾化过程。
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