Voltampermetric investigation of peculiarities of anodic processing of biomedical stainless steel AISI 304 in ethaline: temperature and additional water influence

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Abstract

It is shown that deep eutectic solvent Ethaline is an environmentally friendly and highly efficient medium for electropolishing of AISI 304 stainless steel that is widely used for medical products. The obtained voltammograms allow choosing optimal conditions for anodic treatment of AISI 304 steel samples in Ethaline at different temperature conditions (from 20 to 50°C) and with water additives (up to 10 %). It is established that high efficiency of Ethaline as an electrolyte for anodic treatment is primarily associated with its unique physicochemical properties: significant viscosity and, at the same time, relatively high, as for ionic liquids, electrical conductivity. The high viscosity of the Ethaline solvent causes slow diffusion of the products of anodic dissolution of steel, which achieve the formation of a viscous electrode layer and provide a high efficiency of the polishing process. It has been shown that with an increase in electrolyte temperature and water content in Ethaline the anodic dissolution rate of steel increases and this allows the use of high anode current densities for electropolishing in galvanostatic mode or lower potentials in the potentiostatic mode.
生物医用不锈钢AISI 304在乙炔中阳极处理特性的伏安法研究:温度和附加水的影响
结果表明,深共晶溶剂乙炔是一种环保高效的介质,可用于广泛用于医疗产品的AISI 304不锈钢的电抛光。获得的伏安图允许在不同温度条件(从20到50°C)和水添加剂(高达10%)的乙炔中选择最佳条件对AISI 304钢样品进行阳极处理。已经确定,乙炔作为阳极处理电解质的高效率主要与其独特的物理化学性质有关:显著的粘度,同时,对于离子液体来说,导电性相对较高。乙炔溶剂的高粘度使得钢的阳极溶解产物扩散缓慢,从而实现了粘滞电极层的形成,提供了抛光过程的高效率。研究表明,随着电解液温度和乙炔中含水量的增加,钢的阳极溶解速度增加,这使得在恒流模式下使用高阳极电流密度进行电抛光,或在恒电位模式下使用低电位。
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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