SELECTION OF THE NANOSCALE PHASE MATERIAL AND ESTABLISHMENT OF MODES FOR APPLYING NANOCOMPOSITION ELECTROPLATING COATINGS BASED ON CHROMIUM

V. Safonov, S. Shishurin, P. Gorbushin, V. V. Ostrikov
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Abstract

The article presents the results of research on the establishment of an effective nanoscale phase and modes of applying nanocomposite electroplating coatings based on chromium. As a result of the conducted studies, it was found that it is advisable to use a nanodispersed aluminum oxide powder as a nanoscale phase. The method of mathematical planning of the experiment was used to determine the optimal modes of coating and the concentration of nanoscale particles in the electrolyte. The microhardness of the obtained coatings was chosen as an optimization parameter, since it significantly affects their wear resistance. The highest microhardness of a nanocomposite electrolytic coating based on chromium is achieved when the electrolyte is heated to a temperature of 50 °C, a current density of 59 A/dm2 and a concentration of nanoscale phase particles in the electrolyte of 3.2 g/l, which ultimately corresponds to an increase in microhardness to 14.32 GPa. It is also established that nanocomposition coatings have a positive microhardness gradient in thickness, which allows leveling the difference in the values of the microhardness of the coatings and the base metal and will help to increase the adhesion strength of the coatings to the base on the one hand and their wear resistance on the other. Based on the microhardness measurements of chromium-based nanocomposition coatings, statistical series were formed. 30 samples were subjected to measurements. According to the results of microhardness measurements, the average square deviation of the values of nanocomposition coatings based on chromium was 0.05 (coefficient of variation 0.283). To equalize the obtained experimental microhardness information, the law of normal distribution is chosen, since the coefficient of variation, according to which the greatest probability of microhardness values of nanocomposite coatings based on chromium is observed in the range of 14.32–14.37 GPa.
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纳米相材料的选择和基于铬的纳米复合电镀涂层的应用模式的建立
本文介绍了有效的纳米相的建立和基于铬的纳米复合电镀涂层的应用模式的研究结果。研究结果表明,采用纳米分散的氧化铝粉作为纳米级相是可取的。采用数学规划的方法确定了最佳的包覆模式和电解质中纳米级粒子的浓度。选择涂层的显微硬度作为优化参数,因为显微硬度对涂层的耐磨性有重要影响。当电解液温度为50℃,电流密度为59 a /dm2,电解液中纳米级相颗粒浓度为3.2 g/l时,基于铬的纳米复合电解涂层的显微硬度最高,最终对应的显微硬度增加到14.32 GPa。研究还发现,纳米复合涂层在厚度上具有正的显微硬度梯度,这使得涂层与母材的显微硬度差异趋于均匀,有助于提高涂层与基体的结合强度和耐磨性。基于铬基纳米复合涂层的显微硬度测量,形成了统计序列。对30个样品进行了测量。显微硬度测量结果表明,镀铬纳米复合镀层硬度的均方根偏差为0.05(变异系数为0.283)。为了使实验所得的显微硬度信息均衡,选择正态分布规律,因为变异系数在14.32 ~ 14.37 GPa范围内,铬基纳米复合镀层的显微硬度值概率最大。
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