The Influence of Surface-Active Elements on Grains Boundary Structure and Resistance Against Intergranular Corrosion of Austenitic Cr–Ni and Cr–Ni–Mo Steels

IF 0.7 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Science Pub Date : 2023-12-27 DOI:10.1007/s11003-023-00743-w
T. O. Dergach, G. D. Sukhomlin, L. M. Deyneko, Z.-H. Jiang, J. Tian
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Abstract

The maximum permissiblse content of surface-active elements of carbon, nitrogen and boron in low-carbon Cr–Ni and Cr–Ni–Mo steels, which provide high resistance against intergranular corrosion (IGC) when tested in strongly and weakly oxidizing environments, was established. To ensure high resistance against IGC when tested in boiling 65% HNO3 (according to ISO 3651-1), the carbon content in 03Kh18N11 (304L) and 03Kh17N14M3 (316L) steels should not exceed 0.025% and 0.015%, respectively, and when tested in boiling H2SO4 (ISO 3651-2, method B) should not exceed 0.03%. The nitrogen amount up to 0.2% does not influence negatively the IGC of the studied steels, and the simultaneous increase of nitrogen and carbon gives a negative synergistic effect. The negative influence of 0.003% and, to a greater extent, 0.03% boron on the grain boundary structure and resistance against IGC of steels hardened at temperatures >1100°C was shown. Technologies for increasing the resistance against IGC of pipes made of the studied steels were developed, taking into account the principle of grain boundary engineering of polycrystalline materials.

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表面活性元素对奥氏体铬镍钢和铬镍钼钢晶界结构和抗晶间腐蚀性能的影响
低碳铬-镍钢和铬-镍-钼钢在强氧化和弱氧化环境中具有较高的抗晶间腐蚀(IGC)能力,因此确定了这些钢材中碳、氮和硼等表面活性元素的最大允许含量。为确保在沸腾的 65% HNO3(根据 ISO 3651-1)中进行测试时具有较高的抗晶间腐蚀性能,03Kh18N11(304L)和 03Kh17N14M3(316L)钢中的碳含量分别不得超过 0.025% 和 0.015%,而在沸腾的 H2SO4(ISO 3651-2,方法 B)中进行测试时,碳含量不得超过 0.03%。氮含量不超过 0.2% 不会对所研究钢材的 IGC 产生负面影响,氮和碳的同时增加会产生负面的协同效应。0.003% 的硼和更大程度上 0.03% 的硼对在 1100°C 温度下淬火的钢材的晶界结构和抗 IGC 性能有负面影响。考虑到多晶材料的晶界工程学原理,开发出了提高所研究钢材制管抗 IGC 能力的技术。
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来源期刊
Materials Science
Materials Science 工程技术-材料科学:综合
CiteScore
1.60
自引率
44.40%
发文量
63
审稿时长
4-8 weeks
期刊介绍: Materials Science reports on current research into such problems as cracking, fatigue and fracture, especially in active environments as well as corrosion and anticorrosion protection of structural metallic and polymer materials, and the development of new materials.
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