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In-reactor precipitation and ferritic transformation in neutron-irradiated stainless steels

1979; Elsevier BV; Volume: 83; Issue: 1 Linguagem: Inglês

10.1016/0022-3115(79)90595-6

1873-4820

David Porter, E.L. Wood,

Nuclear Materials and Properties

Ferritic transformation (γ → α) was observed in type 304L, 20% cold-worked AISI 316, and solution-annealed AISI 316 stainless steels when subjected to fast neutron irradiation. Each material demonstrated an increasing propensity for transformation with increasing irradiation temperature between 400 and 550° C. Irradiation-induced segregation of Ni solute to precipitates was found not to be a controlling factor in the transformation kinetics in 304L. Similar compositiondata from 316 materials demonstrates a much greater temperature dependence of matrix Ni depletion by precipitation reactions during neutron irradiation. The 316 data establishes a strong link between such depletion and the observed γ → α transformation. Moreover, the lack of correlation between precipitate-related Ni depletion and the γ → α transformation in 304L can be related to the fact that irradiation-induced voids nucleate very quickly in 304L steel during irradiation. These voids present competing sites for Ni segregation through a defect drag mechanism, and hence Ni segregates to voids rather than to precipitates, as evidenced by observed stable γ shells around voids in areas of complete transformation.