Nuclear Engineering and Technology (Oct 2017)
The effect of neutron irradiation on hydride reorientation and mechanical property degradation of zirconium alloy cladding
Abstract
Zirconium alloy cladding tube specimens were irradiated at 380°C up to a fast neutron fluence of 7.5 × 1024 n/m2 in a research reactor to investigate the effect of neutron irradiation on hydride reorientation and mechanical property degradation. Cool-down tests from 400°C to 200°C under 150 MPa tensile hoop stress were performed. These tests indicate that the irradiated specimens generated a smaller radial hydride fraction than did the unirradiated specimens and that higher hydrogen content generated a smaller radial hydride fraction. The irradiated specimens of 500 ppm-H showed smaller ultimate tensile strength and plastic strain than those characteristics of the 250 ppm-H specimens. This mechanical property degradation caused by neutron irradiation can be explained by tensile hoop stress-induced microcrack formation on the hydrides in the irradiation-damaged matrix and subsequent microcrack propagation along the hydrides and/or through the matrix.
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