Determining the tensile strength of fuel surrogate TRISO-coated particle buffer, IPyC, and buffer-IPyC interlayer regions

Abstract

A novel micro tensile sample fabrication technique for determining the tensile strength of the buffer, IPyC, and buffer-IPyC interlayer regions of surrogate (ZrO2) TRISO fuel particle layers was refined and implemented. Copper micro tensile samples served as baseline materials to verify the methods used. Tensile tests performed in this study, while limited in number, were analysed using standard and Weibull statistics. As expected, the buffer layer was weakest, with an average ultimate tensile strength of 138.70MPa, and the IPyC layer samples were strongest, with an average ultimate tensile strength of 189.74MPa. In the buffer-IPyC interface samples, all breaks occurred in the buffer region, though the average ultimate tensile strength of the samples, 159.80MPa, was between the pure buffer and IPyC samples. These results suggest the interlayer region has unique properties, perhaps associated with pyrocarbon infiltration into the buffer layer during particle coating. All interlayer samples fractured within the buffer side; however, the stress strain behaviour of some of these samples resembled the behaviour of the IPyC layer samples. The buffer and IPyC layer strengths had a normal distribution under Weibull analysis, while the interlayer region had a Rayleigh distribution. Further testing is needed to clarify both the standard and Weibull statistical results.