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http://dx.doi.org/10.4191/KCERS.2007.44.7.368

Direct Strength Evaluation of the CVD SiC Coating of TRISO Coated Fuel Particle with Micro Hemi Spherical Shell Configuration  

Lee, Hyeon-Keun (Department of Materials Science and Engineering Korea Advanced Institute of Science and Technology (KAIST))
Kim, Do-Kyung (Department of Materials Science and Engineering Korea Advanced Institute of Science and Technology (KAIST))
Publication Information
Journal of the Korean Ceramic Society / v.44, no.7, 2007 , pp. 368-374 More about this Journal
Abstract
CVD-SiC coating has been introduced as a protective layer in TRISO nuclear fuel particle of high temperature gas cooled reactor (HTGR) due to its excellent mechanical stability at high temperature. In order to prevent the failure of the TRISO particles, it is important to evaluate the fracture strength of the SiC coating layer. It is needed to develop a new simple characterization technique to evaluate the mechanical properties of the coating layer as a pre-irradiation step. In present work, direct strength measurement method with the specimen of hem i-spherical shell configuration was suggested. The indentation experiment on a hemisphere shell with a plate indenter was conducted. The fracture strength of the coating layer is related with the critical load for radial cracking of the shell. The finite element analysis was used to drive the semi-empirical equation for the strength measurement. The SiC hemispherical shells were successfully recovered from the section-grinding of TRISO coated particle and successive heat treatment in air. The strength of CVD-SiC coating layer was evaluated from the experimentally measured critical load during the indentation on SiC hemisphere shell. Weibull diagram of fracture strength was also constructed. This study suggested a new strength equation and experimental method to measure the fracture strength of CVD-SiC coating of TRISO coated fuel particles.
Keywords
Silicon carbide coating; Fracture strength; Direct strength measurement method; Finite element analysis;
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Times Cited By KSCI : 1  (Citation Analysis)
Times Cited By SCOPUS : 3
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