Degradation of Incoloy‐800HT in molten FLiNaK salt at high temperatures

Materials and Corrosion Pub Date : 2022-01-20 DOI:10.1002/maco.202112758

Y. V. Harinath, P. Chandramohan, B. Anandkumar, T. Mohan, S. Rangarajan, S. Albert

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Abstract

Many studies have revealed that Hastelloy‐N is the most suitable material for molten FLiNaK salt application. However, due to the nonavailability and high cost of Hastelloy‐N, Incoloy‐800HT is being considered as an alternate material. Corrosion studies were carried out on Incoloy‐800HT in vacuum‐dried molten FLiNaK salt at 650°C and 750°C for 100, 250, 500 and 1000 h. The exposed specimens were examined for weight loss and subjected to surface analysis using techniques like metallography, confocal laser scanning microscopy, X‐ray diffraction and laser Raman spectroscopy. The results revealed that the weight loss and depth of attack are less in specimens exposed to 650°C than those exposed to 750°C, and there is no evidence of any localised attack at both the temperatures. Chemical analysis of the used salt showed higher Cr and Fe contents than that in fresh salt, indicating dealloying of elements like Cr and Fe from Incoloy‐800HT specimens during exposure to molten FLiNaK salt. Oxides rich in Fe and Cr with spinel‐type crystal structures were identified on the exposed surfaces. From the results, it could be concluded that though there was considerable corrosion of Incoloy‐800HT, the material may be used in static molten FLiNaK salt systems with limited design life restricted to a temperature of 650°C by giving appropriate corrosion allowance.

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熔融熔融熔融熔融熔盐中incoly‐800HT的高温降解

许多研究表明，哈氏合金- N是最适合熔融熔盐应用的材料。然而，由于哈氏合金的不可获得性和高成本，铬合金- 800HT被认为是一种替代材料。在真空干燥的熔融FLiNaK盐中，在650°C和750°C下，分别进行了100、250、500和1000小时的腐蚀研究。暴露后的样品进行了失重检查，并使用金相学、共聚焦激光扫描显微镜、X射线衍射和激光拉曼光谱等技术进行了表面分析。结果表明，650℃下试样的失重和侵蚀深度比750℃下的试样要小，并且在这两种温度下没有任何局部侵蚀的证据。化学分析表明，废盐的Cr和Fe含量高于新鲜盐，表明在暴露于熔融的FLiNaK盐过程中，来自incoly‐800HT样品的Cr和Fe等元素发生了脱合金化。在暴露表面发现了具有尖晶石型晶体结构的富铁和富铬氧化物。从结果中可以得出结论，尽管incoly‐800HT存在相当大的腐蚀，但通过适当的腐蚀余量，该材料可以用于静态熔融FLiNaK盐体系，其设计寿命限制在650°C。

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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Materials and Corrosion

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