REASON OF PITTING CORROSION OF MARTENSITIC STEELIN SEA WATER

Q3 Engineering
M.I. Baikenov
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Abstract

Abstract. The assumption that corrosion of products from X17 martensitic stainless steel in seawater occurs due to incomplete oxidation of chromium atoms in cells on the surface of the products is made in the presented work. Incomplete oxidation of chromium atoms occurs in the cells of X17 steel. This is due to the fact that oxygen molecules at temperatures up to 350 °C not having enough energy for chemical interaction with trivalent chromium atoms entering the cubic body-centeredcells of martensitic stainless steel. There is a significant decrease in the corrosion rate after placing X17 stainless steel products in 5% iodine solution in ethanol after pre-treatment of the product surface with active forms of oxygen. The treatment was carried out during 12 hours with chemically active forms of oxygen (ozone and singlet oxygen) at a temperature of 350 °С. Most of the chromium atoms on the surface of X17 steel samples were completely oxidized as a result of 12 hours exposure to highly active forms of oxygen. The density of the oxide passivation layer on the surface of the products increased significantly as a result of the formation of new bonds CHROMIUM -OXYGEN -CHROMIUM. This resulted in increased corrosion resistance. The rate of interaction with an alcohol solution containing halogen ions was reduced by 71% for the samples with the oxide passivation layer compared to samples of untreated X17 steel.
马氏体钢在海水中发生点蚀的原因
摘要本文假定 X17 马氏体不锈钢产品在海水中的腐蚀是由于产品表面晶胞中铬原子的不完全氧化造成的。铬原子的不完全氧化发生在 X17 钢的晶胞中。这是由于氧分子在高达 350 °C 的温度下没有足够的能量与进入马氏体不锈钢立方体中心电池的三价铬原子发生化学作用。在用活性氧预处理产品表面后,将 X17 不锈钢产品放入 5%的碘乙醇溶液中,其腐蚀率明显降低。用化学活性氧(臭氧和单线态氧)在 350 °С 的温度下进行了 12 小时的处理。在高活性氧环境中暴露 12 小时后,X17 钢样品表面的大部分铬原子完全氧化。由于形成了新的铬-氧-铬键,产品表面氧化物钝化层的密度显著增加。从而提高了耐腐蚀性。与未经处理的 X17 钢样品相比,带有氧化物钝化层的样品与含有卤素离子的酒精溶液的相互作用率降低了 71%。
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CiteScore
1.10
自引率
0.00%
发文量
15
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