2008
DOI: 10.1007/s11661-008-9482-9
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Mechanisms of Neutron Irradiation Hardening in Impurity-Doped Ferritic Alloys

Abstract: Mechanisms of neutron irradiation hardening in phosphorus (P)-doped, sulfur (S)-doped, and copper (Cu)-doped ferritic alloys have been studied by applying a rate theory to the temperature dependence of the yield strength. Hardening behavior induced by neutron irradiation at various temperatures (473 to 711 K) is characterized in terms of the variations in athermal stress and activation energy for plasticity controlled by precipitation or solid solution, and kink-pair formation with the content and type of impu… Show more

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“…Concerns about a possible detrimental effect of boron addition in this Ti-alloy stem from an observed increase of defect concentrations in metals with the increase of impurities, like with ferritic alloys, due to precipitate segregation at the grain boundaries [18,19] and specifically in boron-doped graphite [20,21].…”
Section: Introductionmentioning
confidence: 99%
“…Concerns about a possible detrimental effect of boron addition in this Ti-alloy stem from an observed increase of defect concentrations in metals with the increase of impurities, like with ferritic alloys, due to precipitate segregation at the grain boundaries [18,19] and specifically in boron-doped graphite [20,21].…”
Section: Introductionmentioning
confidence: 99%