摘要
通过压缩锥形试样研究了温度和变形程度对GH738合金微观组织的影响,分析了不同变形程度下,合金的再结晶晶粒尺寸、再结晶体积分数和平均晶粒尺寸的演化情况,为制定GH738合金热态变形工艺提供了理论依据。研究结果表明,随着温度升高,再结晶晶粒尺寸变大;随变形程度减小,再结晶体积分数逐渐减小。在不同变形程度下,在1120℃温度时变形可获得较高的再结晶体积分数和较均匀的再结晶晶粒尺寸;当加热温度1100~1140℃范围内,变形程度大于28%时,可以获得晶粒尺寸较为均匀的微观组织。
The influence of temperature and strain on microstructure of GH738 alloy was researched by using hot compressing of double-cone samples. The evolution of the alloy in dynamic recrystallized crystallite size, recrystallization volume friction and average crystallite dimension under different deformation conditions were in- vestigated. The investigation provided a theoretical base for the determination of hot process of GH738 alloy. The research result shows that the dynamic recrystallized grain size increases with the increase of temperature, the recrystallization volume friction decreses with the decrease of deformation, the large volume friction of recrystallization and equiaxial recrystallization grain size can be obtained at 1120℃ under a certain condition, and the microstructures with uniformity erystallite size can be achieved when the heating temperature is in the range of 1000 - 1140℃ and deformation is larger than 28%.
出处
《重型机械》
2012年第3期103-107,共5页
Heavy Machinery
关键词
GH738
压缩锥形试样
再结晶
GH738
hot compressing of conical sample
recrystallization
