Evolution of fine-scale defects in stainless steels neutron-irradiated at 275 °C |
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Authors: | D.J Edwards E.P Simonen S.M Bruemmer |
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Affiliation: | Pacific Northwest National Laboratory, Materials Interfaces and Characterization Group, Structural Materials Development, MSIN P8-15 Richland, WA 99352, USA |
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Abstract: | Six austenitic stainless steel heats (three heats each of 304SS and 316SS) neutron-irradiated at 275 °C from 0.6 to 13.3 dpa have been carefully characterized by TEM and their hardness measured as a function of dose. The characterization revealed that the microstructure is dominated by a very high density of small Frank loops present in sizes as small as 1 nm and perhaps lower, which could be of both vacancy and interstitial-type. Frank loop density saturated at the lowest doses characterized, whereas the Frank loop size distributions changed with increasing dose from an initially narrow, symmetric shape to a broader, asymmetric shape. Although substantial hardening is caused by the small defects, a simple correlation between hardness changes and density and size of defects does not exist. These results indicate that radiation-induced segregation to the Frank loops could play a role in both defect evolution and hardening response. |
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Keywords: | N0100 R0200 R0300 S0500 |
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