Grain boundary character and superplasticity of fine-grained ultra-high carbon steel : Superplasticity and its applications

T. Furuhara, E. Sato, T. Mizoguchi, Shuji Furimoto, T. Maki
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引用次数: 12

Abstract

The characteristics and superplasticity of the (a + θ) microduplex structures formed by various thermomechanical processings were studied in an ultra-high carbon steel (Fe-1.4Cr-1.0C). After heavy warm rolling of pearlite, an (a + θ) microduplex structure with equi-axed a grains of 0.4 pm in diameter and spheroidized θ particles of 0.2 μm in diameter is obtained. The a matrix exhibits a recovered structure in which most of a grain boundaries are low-angle boundaries, resulting in rather smaller elongation at 973 K. Heavy cold rolling and annealing of pearlite produces an (a + θ) microduplex structure which consists of the coarse-grain region (d α ∼ 0.4 μm) with high-angle a boundaries and the fine-grain region (d α ∼ 0.2 μm) with low-angle a boundaries. Superplasticity in this specimen is slightly better than the warm-rolled specimen. When pearlite was austenitized in the (y + θ) region, quenched and tempered at the temperature below A 1 , an (a + θ) microduplex structure in which a and θ grain sizes are nearly the same as in the warm-rolled specimen and most of a boundaries are of high-angle one is formed. Such ultra-fine a grains are formed through the recovery of the fine (a' lath martensite + θ) mixture during tempering. This microduplex structure exhibits superior superplasticity. Heavy warm rolling prior to the quenching and tempering improves total elongation further because the distribution of prior y grain size is more uniform. When cold-rolled pearlite was austenitized and air-cooled, an (a + θ) microduplex structure with high-angle a boundary is formed. However, since the a grain size was relatively large (ca. 2 μm), its superplastic performance is poor. Finally, more simplification of processing for superplasticity was attempted. Further improvement of superplasticity was achieved by omitting the tempering in the quenching and tempering treatment.
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细晶超高碳钢的晶界特性与超塑性:超塑性及其应用
研究了超高碳钢(Fe-1.4Cr-1.0C)在不同热处理条件下形成的(a + θ)微双相组织的特征和超塑性。珠光体经过重温轧制后,得到了直径为0.4 pm的等轴a晶粒和直径为0.2 μm的球化θ晶粒的(a + θ)微双相组织。在973 K时,a基体表现出一种恢复组织,其中大部分晶界为低角晶界,导致延伸率较小。珠光体经冷轧退火后形成(a + θ)微双相组织,由具有高a角边界的粗晶区(d α ~ 0.4 μm)和具有低a角边界的细晶区(d α ~ 0.2 μm)组成。该试样的超塑性略好于热轧试样。当珠光体在(y + θ)区奥氏体化,在低于a1的温度下淬火回火时,形成了A和θ晶粒尺寸与热轧试样基本相同,且晶界大部分为大角度晶界的(A + θ)微双相组织。这种超细晶粒是通过回火过程中细小(a'板条马氏体+ θ)混合物的恢复而形成的。这种微双相组织表现出优异的超塑性。淬火回火前的重温轧制进一步提高了总伸长率,因为先前的晶粒尺寸分布更加均匀。冷轧珠光体经奥氏体化和风冷处理后,形成具有大角度a边界的(a + θ)微双相组织。但由于a晶粒尺寸较大(约2 μm),其超塑性性能较差。最后,对超塑性加工进行了进一步简化。通过在淬火回火处理中省略回火,进一步提高了材料的超塑性。
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