电解槽集气钟铸造件用灰口铸铁替代的可能性

A. A. Usol’tsev, N. Kozyrev, S. Knyazev, A. Kutsenko, A. Mikhno
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引用次数: 1

摘要

灰口铸铁电解槽集气钟铸件破坏的主要过程是铁被氧、SO2气体和硫蒸气氧化形成磁铁矿、赤铁矿和磁黄铁矿。氧化铁和硫化物的同时形成并不能防止进一步的腐蚀,因为形成的水垢具有松散的结构,不具有保护性能。减少铸件材料内部界面边界的长度可以降低腐蚀破坏的速度,这可以通过对铸铁进行改性来改变石墨夹杂物的形状来实现,即获得具有球形石墨夹杂物的高强度铸铁。然而,用镁改性法在铸铁中获得球形石墨并不排除腐蚀性气体进入产品表面及其沿晶界扩散的可能性。结果表明,合金化可以作为一种替代方法,它不仅可以消除铸铁组织中石墨的层状分泌物,而且可以在合金元素的基础上形成表面氧化层,防止腐蚀。由于在结构中存在碳化物成分,与铬合金化使铸铁具有很高的耐磨性,以及由于金属基体的合金化而具有的耐腐蚀性,由于金属基体的电化学电位增加而具有的耐热性以及在铸件表面形成强中性氧化膜,耐热性等。对电解槽集气钟用铸铁的耐蚀性进行了实验对比分析,结果表明:铬铸铁ЧХ3的耐蚀性高于含球状石墨的高强铸铁ВЧ50,远高于含层状石墨的灰铸铁。然而,铬铸铁ЧХ3铸造性能低,对冷却速度非常敏感,组织不均匀性大,难以用于制造电解槽集气钟。
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On a possibility of replacing grey cast iron for manufacturing cast elements of electrolyzer gas collecting bell
The main process leading to the destruction of the cast elements of gas-collection bell of electrolyzer, made of grey cast iron, is the oxidation of iron by oxygen, SO2 gas and sulfur vapors to form magnetite, hematite and pyrrhotin. The simultaneous formation of iron oxides and sulfides does not prevent further corrosion, since scale is formed with a loose structure that does not have protective properties. Reducing the length of the interfacial boundaries inside the material of the cast enables to reduce the rate of corrosion destruction, which can be achieved by modifying the cast iron to change the shape of graphite inclusions, i.e. obtaining high-strength cast iron with a spherical shape of graphite inclusions. However, the obtaining spherical graphite in cast iron using magnesium modification does not exclude the access of aggressive gases to the surface of the products and the possibility of their diffusion along the grain boundaries. It was shown that alloying can be an alternative, which leads not only to the exclusion of lamellar secretions of graphite in the structure of cast iron, but also to the formation of surface oxide layers based on the alloying element preventing the corrosion. Alloying with chromium gives cast iron high abrasive resistance due to the presence of a carbide component in the structure, as well as corrosion resistance due to the alloying of the metal base, heat resistance due to increasing the electrochemical potential of the metal base and creating a strong neutral oxide film on the surface of the castings, heat resistance, etc. An experimental comparative analysis of the corrosion resistance of cast iron used for manufacturing of gas collecting bell of electrolyzers showed that chromic cast iron ЧХ3 has a higher corrosion resistance than high-strength cast iron with spherical graphite ВЧ50 and much higher than grey cast iron with lamellar graphite. However, chromic cast iron ЧХ3 has low casting properties, is very sensitive to the cooling rate and has a large heterogeneity in structure, which makes it difficult to use it for the manufacture of gas collecting bell of electrolyzers.
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