Corrosion Behavior of Stainless Steel 316 for Carbon Anode Oxide Reduction Application

M. Jeon, Sung-Wook Kim, E. Choi
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Abstract

Here, the stability of stainless steel 316 (SS-316) was investigated to identify its applicability in the oxide reduction process, as a component in related equipment, to produce a complicated gas mixture composed of O2 and Cl2 under an argon (Ar) atmosphere. The effects of the mixed gas composition were investigated at flow rates of 30 mL/min O2, 20 mL/min O2 + 10 mL/min Cl2, 10 mL/min O2 + 20 mL/ min Cl2, and 30 mL/min Cl2, each at 600℃, during a constant argon flow rate of 170 mL/min. It was found that the corrosion of SS-316 by the chlorine gas was suppressed by the presence of oxygen, while the reaction proceeded linearly with the reaction time regardless of gas composition. Surface observation results revealed an uneven surface with circular pits in the samples that were fed mixed gases. Thermodynamic calculations proposed the combination of Fe and Ni chlorination reactions as an explanation for this pit formation phenomenon. An exponential increase in the corrosion rate was observed with an increase in the reaction temperature in a range of 300 ~ 600℃ under a flow of 30 mL/min Cl2 + 170 mL/min Ar.
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碳阳极氧化还原应用中316不锈钢的腐蚀行为
本文对不锈钢316 (SS-316)的稳定性进行了研究,以确定其在氧化还原过程中的适用性,作为相关设备的组件,在氩(Ar)气氛下产生由O2和Cl2组成的复杂气体混合物。在600℃、氩气流量为170 mL/min、O2流量为30 mL/min、O2流量为20 mL/min + Cl2流量为10 mL/min、O2流量为10 mL/min + Cl2流量为20 mL/min和Cl2流量为30 mL/min的条件下,考察了混合气体组成对反应的影响。结果表明,氧气的存在抑制了氯气对SS-316的腐蚀,而与气体成分无关,反应时间与反应时间呈线性关系。表面观察结果显示,在注入混合气体的样品中,表面不均匀,有圆形凹坑。热力学计算表明,铁和镍的氯化反应可以解释这种坑的形成现象。在30 mL/min的Cl2 + 170 mL/min的Ar流量下,反应温度在300 ~ 600℃范围内随温度的升高,腐蚀速率呈指数增长。
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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