Influence of irradiation temperature and dose gradients on the microstructural evolution in neutron-irradiated 316SS |
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Authors: | D.J Edwards E.P Simonen F.A Garner L.R Greenwood B.M Oliver S.M Bruemmer |
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Affiliation: | Materials Interfaces and Characterization Group, Pacific Northwest National Laboratory, Structural Materials Development, MSIN P8-15, Richland, WA 99352, USA |
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Abstract: | A cold worked 316SS baffle bolt was extracted from the Tihange pressurized water reactor and sectioned at three different positions. The temperature and dose at the 1-mm bolt head position were 593 K and 19.5 dpa respectively, whereas at two shank positions the temperature and dose was 616 K and 12.2 dpa at the 25-mm position and 606 K and 7.5 dpa at the 55-mm position. Microstructural characterization revealed that small faulted dislocation loops and cavities were visible at each position, but the cavities were most prominent at the two shank positions. Measurable swelling exists in the shank portions of this particular bolt, and accompanying this swelling is the retention of very high levels of hydrogen absorbed from the environment. The observation of cavities in the CW 316SS at temperatures and doses relevant to LWR conditions has important implications for pressurized water reactors since SA 304SS plates surround the bolts, a steel that usually swells earlier due to its lower incubation period for swelling. |
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Keywords: | C0200 N0100 R0200 R0300 S0500 |
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