Recrystallization of ferrite–austenite stainless steel

M. Blicharski
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引用次数: 15

Abstract

AbstractProcesses taking place in the course of annealing of deformed ferrite–austenite stainless steel have been examined by means of light and electron metallography. Deformations of 23, 43, and 85% were obtained by rolling at room temperature. It has been found that ferrite and austenite recrystallize discontinuously irrespective of the magnitude of the deformation. Ferrite recrystallization is preceded by extensive recovery processes. Initially this induces the formation of elongated subgrains, whose growth results in a rapid spheroidization and nucleation of recrystallization. The recovery of austenite before recrystallization is far more limited and, in general, does not lead to the formation of a subgrain structure. The preferred regions of recrystallization nuclei formation in ferrite are shear bands and microbands, whereas in austenite the nucleation of recrystallization takes place at the intersections of deformation twins and in shear bands. The size of ferrite and austenite grains after recrys...
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铁素体-奥氏体不锈钢的再结晶
摘要用光电子金相技术对形变铁素体-奥氏体不锈钢退火过程进行了研究。在室温下轧制得到23%、43%和85%的变形。结果表明,铁素体和奥氏体的再结晶是不连续的,与变形大小无关。铁氧体再结晶之前有广泛的恢复过程。这一过程最初诱导长形亚晶的形成,其生长导致快速球化和再结晶成核。在再结晶之前奥氏体的恢复是非常有限的,一般来说,不会导致亚晶结构的形成。铁素体的再结晶核形成的优先区域是剪切带和微带,而奥氏体的再结晶核形成发生在变形孪晶和剪切带的交叉处。铁素体和奥氏体晶粒的大小…
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