Use of Pulsed Spray Airflow for Electric Arc Spraying of Different Types of Wires

V. Royanov, Irina Zakharova
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Abstract

The object of research is the control of the process of formation of a spraying air flow and the transfer of particles of liquid metal from electrodes during arc spraying. One of the problem areas of the arc spraying process is the oxidation of the sprayed metal particles by the oxygen of the air flow during their transportation to the sprayed surface. This leads to the formation of a sufficiently large amount of oxides of chemical elements, which significantly deteriorate the adhesion strength and burn out alloying elements that are necessary to obtain a wear-resistant and corrosion-resistant coating. The suitability and durability of coatings during use depends on the strength of adhesion to the substrate.

In the course of the study, methods were used to determine the adhesion strength of the coating to the base – the Steffens method and methods for studying the microstructure of coatings were taken as the basis. The data was processed and dependencies were plotted.

The proposed method makes it possible to improve the quality of the resulting coating in terms of such an indicator as improvements in chemical composition. And also to influence the chemical composition by controlling the process of transfer of molten metal using a pulsating air flow.

The obtained results of approbation of the method allow us to consider it effective, as evidenced by the quality of the obtained coatings. This is due to the fact that the correctness of the formulation and solution of the problem provided adequate results. In contrast to the existing methods, the proposed one makes it possible to significantly influence the amount of harmful oxygen involved in the formation of a sprayed coating, which makes it possible to obtain a sprayed layer with the required performance characteristics. And also allows to improve its quality without significant capital costs. In addition, the issues of resource and energy saving are being addressed, since the burnout of chemical elements decreases and the air consumption during arc metallization decreases. To solve this problem, a simple design of the pulsator is proposed, which provides the ability to control the spray flow by adjusting the level of overlapping of the holes.
脉冲喷雾气流用于不同类型导线的电弧喷涂
研究的对象是电弧喷涂过程中喷射气流的形成过程和液态金属微粒从电极转移的控制。电弧喷涂过程中存在的问题之一是被喷涂的金属颗粒在其输送到喷涂表面的过程中被气流中的氧气氧化。这导致形成足够多的化学元素的氧化物,这大大降低了附着力,烧毁合金元素,这是获得耐磨和耐腐蚀涂层所必需的。涂料在使用过程中的适用性和耐久性取决于与基材的粘附强度。在研究过程中,采用了确定涂层与基体结合强度的方法——Steffens法,并以研究涂层微观结构的方法为基础。对数据进行处理并绘制相关性图。所提出的方法可以通过化学成分的改进等指标来改善所得到涂层的质量。还可以通过使用脉动气流控制熔融金属的转移过程来影响化学成分。该方法获得的认可结果使我们认为它是有效的,所获得的涂层质量证明了这一点。这是因为问题的表述和解决方法的正确性提供了充分的结果。与现有方法相比,所提出的方法可以显著影响喷涂涂层形成过程中涉及的有害氧的量,从而可以获得具有所需性能特征的喷涂层。而且还可以在没有大量资本成本的情况下提高其质量。此外,由于电弧金属化过程中化学元素的燃尽减少,空气消耗减少,资源和能源节约问题也得到了解决。为了解决这一问题,提出了一种简单的脉动器设计,通过调节孔的重叠程度来控制喷雾流量。
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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