Irradiation embrittlement of ferritic stainless steels

K. Suganuma, H. Kayano
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Abstract

AbstractThe characteristics of the irradiation embrittlement of some ferritic stainless steels were examined by tensile tests. Steels selected in this investigation were classified into three groups: X phase, precipitation hardened Fe-13Cr steels; tempered martensitic Fe-12Cr steels; and low alloy steels. The latter steels were chosen in order to compare the irradiation embrittlement characteristics with those of stainless steels. The stainless steels were superior to the low alloy steels with regard to the irradiation embrittlement (the changes in both ductile–brittle transition temperature (DBTT) and unstable plastic flow transition temperature (UPFTT)), irrespective of whether these stainless steels had X phase precipitated structures or tempered martensitic structures. The suppression of the DBTT increase owing to irradiation results from low yield stress increase ∆σy and high |[dσy(u)/dT]|, where u denotes unirradiated, in the stainless steels. The suppression of the UPFTT results from the high work ...
铁素体不锈钢的辐照脆化
摘要通过拉伸试验研究了几种铁素体不锈钢的辐照脆化特性。本研究选择的钢分为三组:X相沉淀硬化的Fe-13Cr钢;回火马氏体Fe-12Cr钢;以及低合金钢。选择后一种钢是为了比较其辐照脆化特性与不锈钢的辐照脆化特性。无论不锈钢是X相析出组织还是回火马氏体组织,其辐照脆化(韧脆转变温度(DBTT)和不稳定塑性流动转变温度(UPFTT)的变化)都优于低合金钢。辐照对DBTT增加的抑制作用是由于不锈钢屈服应力增大∆σy较小,而[dσy(u)/dT]|较大(u为未辐照)。UPFTT的抑制是由高功引起的。
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