采用研制的空化试验方法评价了金属陶瓷热喷涂涂层的耐蚀性

H. Alwan, A. Makarov, N. Soboleva, Y. Korobov, V. Shumyakov, N. Lezhnin, V. Zavalishin
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摘要

许多与快速流动的流体接触的机械部件(如水电站的涡轮叶片,阀门,泵叶轮叶片,船舶螺旋桨,各种装置的冷却系统等)都会受到这种类型的磨损,如空化侵蚀。一个重要的目标是消除或减少空化侵蚀,以达到相当大的经济效果。本研究采用了一项专利技术来评估金属陶瓷热喷涂涂层(WC-10Co4Cr和WC-20CrC-7Ni)的抗空化侵蚀性能。这些涂层采用高速空气燃料热喷涂(HVAF)制备。本研究的目的是测试一种新的方法来评估涂层的空化阻力,它不同于标准的方法,即通过试样相对于测试液体的定位来评估涂层的空化阻力。此外,利用扫描电子显微镜(SEM)分析了所制备涂层的初始结构,并研究了空化暴露后涂层的行为。采用空化试验时的材料体积损失准则评价涂层的耐蚀性。空化试验结果表明,WC-20CrC-7Ni涂层的抗空化能力略高于WC-10Co4Cr涂层,但其平均硬度略低于WC-10Co4Cr涂层(850±90 HV0.5 vs 950±60 HV0.5)。对涂层表面和截面的研究表明,它们具有不同的侵蚀机制。结果表明,涂层结构中存在缺陷(孔隙)是导致涂层抗空化侵蚀性能降低的主要原因。因此,所开发的技术对于获得分析金属陶瓷热喷涂涂层空化磨损的实验数据是有效的。
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Using the developed cavitation test to evaluate erosion resistance of cermet thermal sprayed coatings
Many machinery parts working in contact with a fast-flowing fluid flow (e.g. turbine blades of hydroelectric power plants, valves, pump impeller blades, ship propellers, cooling systems for various units, etc.) are subjected to such type of wear as cavitation erosion. An important objective is to eliminate or reduce cavitation erosion so as to achieve a considerable economic effect. This research uses a patented technique developed to evaluate the cavitation erosion resistance of cermet thermal spray coatings (WC–10Co4Cr and WC–20CrC–7Ni). These coatings were prepared using high velocity air fuel thermal spraying (HVAF). The aim of this study is to test a new technique for evaluating coating cavitation resistance, which differs from the standard one by specimen positioning relative to the testing liquid. In addition, scanning electron microscopy (SEM) was used to analyze the initial structure of the coatings prepared and study their behavior after cavitation exposure. The material volume loss criterion during the cavitation test was used to evaluate the coating resistance. The results of cavitation tests showed that the WC–20CrC–7Ni coating has a somewhat higher cavitation resistance than that of WC–10Co4Cr despite its slightly lower average hardness (850±90 HV0.5 versus 950±60 HV0.5). The study of coating surfaces and cross-sections showed that they feature by different erosion mechanisms. It can be concluded that the presence of defects (pores) in the coating structure is the main reason for reducing their cavitation erosion resistance. Therefore, the developed technique proved effective in obtaining experimental data to analyze cermet thermal spray coatings for cavitation wear.
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