Recrystallization Mechanisms in Severely Deformed Dual-Phase Stainless Steel

机译：严重变形的双相不锈钢的再结晶机理

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The structural recrystallization mechanisms operating in an Fe - 27%Cr - 9% Ni dual-phase (ferrite-austenite) stainless steel after large strain processing to total strain of 4.4 were investigated in the temperature range of 400-700°C. The severe deformation resulted in the development of an ultrafine grained microstructure consisting of highly elongated grains/subgrains with transverse dimensions of 160 nm and 130 nm in ferrite and austenite, respectively. The annealing mechanism operating in ferrite phase was considered as continuous recrystallization, which involved recovery leading to the development of essentially polygonized microstructure. On the other hand, the mechanism of discontinuous nucleation took place at an early recrystallization stage in austenite phase.

机译：在400-700°C的温度范围内，研究了在大应变加工至4.4的总应变后，在Fe-27％Cr-9％Ni双相（铁素体-奥氏体）不锈钢中工作的结构性再结晶机理。严重的变形导致了超细晶粒组织的发展，该组织由高度伸长的晶粒/亚晶粒组成，在铁素体和奥氏体中的横向尺寸分别为160 nm和130 nm。在铁素体相中运行的退火机理被认为是连续重结晶，涉及恢复，从而导致了基本多晶化的微观结构的发展。另一方面，不连续形核的机理发生在奥氏体相的早期再结晶阶段。

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《International conference on processing manufacturing of advanced materials;THERMEC 2009》|2010年|P.1905-1910|共6页
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Andrey Belyakov; Rustam Kaibyshev; Yuuji Kimura; Kaneaki Tsuzaki;
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中图分类工程材料一般性问题;
关键词
austenite/ferrite stainless steel; severe deformation; grain refinement; internal stresses; recovery; recrystallization;

机译：奥氏体/铁素体不锈钢;严重变形;晶粒细化内部压力复苏;重结晶;

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Recrystallization Mechanisms in Severely Deformed Dual-Phase Stainless Steel

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