Performance of NiB inhibitor for PbSCC of alloy 600 in Pb-contaminated water and caustic solutions |
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Authors: | Joung Soo Kim Yong-Sun Yi Oh Chul Kwon Mi-Ae Kim Hong Pyo Kim |
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Affiliation: | (1) Nuclear Materials Technology Development Division, Korea Atomic Energy Research Institute, 105, Deokjin-dong, Yuseong-gu, 305-353 Daejeon, Korea;(2) Material Alloying Team/R&D, Liquidmetal Technologies, Korea |
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Abstract: | Nickel-based iron-chromium alloys are used as steam generator (SG) tubing materials in nuclear power plants (NPPs) but experience intergranular stress corrosion cracking (IGSCC) and lead stress corrosion cracking (PbSCC) due to the harsh operating conditions of NPPs. In order to improve the integrity of SGs, many studies have sought suitable inhibitors for IGSCC, while those for PbSCC have been sought to a limited extent. In this study, the performance of nickel boride (NiB) as an inhibitor for PbSCC was evaluated. Nickel boride has been shown to be a good inhibitor for IGSCC of Alloy (or Inconel) 600 in a caustic aqueous solution containing no lead (Pb). No significant SCC was observed to occur in Alloy 600 tested in pure water under the slow strain rate test (SSRT) condition in this study. A mixed mode of IGSCC and TGSCC, however, occurred relatively easily in Alloy 600 tested in pure water containing lead oxide (PbO) at 315 °C. The susceptibility of Alloy 600 to SCC decreased with the addition of NiB, implying that NiB can be used as an inhibitor for PbSCC in Pb-contaminated water. |
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Keywords: | alloy (or inconel) 600 HTMA PbSCC IGSCC TGSCC steam generator tube NiB pure water NaOH |
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