Transformation of Low-Carbon Austenite after Small Plastic Strains

R. Priestner, M. S. Biring
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引用次数: 12

Abstract

AbstractThe effects have been measured of tensile strains of < 0.21 at 950° C on the transformation of three low-carbon steel austenites. Hot deformation of 0.1% C and of 0.1 C, 1.5 Mn, 0.04% Nb steels austenitized at 950° C hastened their transformation to ferrite and softened the transformation product. In the niobium steel austenitized at a high temperature to dissolve NbC and coarsen the grain size before testing at 950° C, deformation also accelerated transformation to ferrite, but without affecting the strength. In these steels transformation to ferrite occurred before the deformed austenites recrystallized. In 0.1 C, 1.5% Mn steel transformation was slow enough for austenite deformed to a strain of 0.21 to recrystallize before transformation, which retarded transformation to ferrite; only at a smaller strain of 0.105 was transformation of this austenite accelerated. These direct effects of hot deformation do not account for the improved strength and toughness of control-rolled low-carbon steels.
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小塑性应变后低碳奥氏体的转变
摘要本文研究了950℃下< 0.21的拉伸应变对三种低碳钢奥氏体转变的影响。0.1% C和950℃奥氏体化的0.1 C、1.5 Mn、0.04% Nb钢的热变形加速了它们向铁素体的转变,软化了转变产物。在铌钢经过高温奥氏体化溶解NbC,晶粒尺寸变粗后,在950℃下进行试验,变形也加速了向铁素体的转变,但不影响强度。在这些钢中,形变的奥氏体再结晶之前就发生了向铁素体的转变。在0.1℃时,1.5% Mn钢的转变速度较慢,奥氏体变形至0.21应变时,在转变前再结晶,从而延缓了向铁素体的转变;只有当应变为0.105时,奥氏体的相变才加速。热变形的这些直接影响不能解释控制轧制低碳钢强度和韧性的提高。
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