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Effect of the [U(IV)]/[U(III)] ratio on selective chromium corrosion and tellurium intergranular cracking of Hastelloy N alloy in the fuel LiF-BeF<sub>2</sub>-UF<sub>4</sub> salt

A. I. Surenkov, V. Ignatiev, M. Yu. Presnyakov, Jian‐Qiang Wang, Zhijun Li, Xinmei Yang, Zhimin Dai

2020EPJ Nuclear Sciences & Technologies17 citationsDOIOpen Access PDF

Abstract

Effect of the [U(IV)/U(III)] ratio of fuel salt on selective chromium corrosion and tellurium intergranular cracking (IGC) of Hastelloy N alloy in the LiF-BeF 2 -UF 4 salt mixture was investigated. The chromium corrosion of Hastelloy N alloy is caused by the oxidation of chromium on the alloy surface by reaction with UF 4 . The tellurium IGC of Hastelloy N alloy is caused by the diffusion of tellurium along the grain boundaries with the formation of unstable tellurides with based metals and alloying additives. Results indicate that the selective chromium corrosion and the tellurium IGC of the Hastelloy N alloy in fuel salt can be controlled by the [U(IV)]/[U(III)] ratio. The tellurium IGC of Hastelloy N alloy exposed in fuel LiF-BeF 2 -UF 4 salt can be avoided. For temperatures up to 760 °C the selective chromium corrosion can be minimized to the acceptable level when the [U(IV)]/[U(III)] ratio of fuel salt is bellow 30–40.

Topics & Concepts

AlloyChromiumIntergranular corrosionTelluriumMaterials scienceMetallurgyCorrosionNuclear Materials and PropertiesNuclear reactor physics and engineeringFusion materials and technologies