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Microstructural Defects in SiC Neutron Irradiated at Very High Temperatures...

by Sosuke Kondo, Yutai Kato, Lance L Snead
Publication Type
Conference Paper
Journal Name
Journal of Nuclear Materials
Publication Date
Page Numbers
160 to 169
Volume
382
Issue
2-3
Conference Name
TMS 2007 annual meeting
Conference Location
Orland, Florida, United States of America
Conference Date

Microstructures in high purity ��ESiC irradiated with fast neutrons (up to ~9.6 �� 1025 n/m2, in HFIR) at very high temperatures (1130, 1280, and 1460��C) were studied by transmission electron microscopy. Cavities and dislocation loops were generally observed in irradiated samples. The cavities were preferentially formed at grown-in stacking faults, and were spherical in shape below 1280��C and mainly faceted with {111} planes at 1460��C. Estimated volume fractions of observed cavities were much smaller than macroscopic densitometer swelling recently reported, which implies other defects cause the swelling in this temperature regime. Larger Frank loops (>25 nm in radius) formed at 1460��C were identified as interstitial type using the inside/outside method. Unfaulting of the loops was not observed or was very rare. Rapid loop growth and density decrease were observed in the temperature range of 1280-1460��C concurrently with the rapid cavity growth. The limited growth rate of dense loops at lower temperature was discussed in terms of high sink strength estimated from a grain-boundary-loop-denuded zone formed at 1130��C.