摘要
研究了Cr、Mo、Ti、Ni、Mn、Si等代位合金元素对当量成分、DO3结构等轴晶Fe3Al合金真空拉伸性能、DO3转变温度Tc、DO3有序度、位错反相畴、位错组态等的影响,从合金元素原子在Fe3Al单胞亚点阵占位、原子解离能、反相畴界能等方面进行了初步探讨。结果表明,与Fe3Al相比,Cr的添加降低合金的Tc温度、提高真空拉伸延伸率,与CrAl原子对交互作用能、反相畴界能的降低有关;
The effects of substitutional elements, Cr, Mn, Ti, Ni, Mo, on the tensile properties in vaccum, DO 3 transition temperature T c, degree of order in DO 3 state, APD and dislocation configuration of stoichiometric Fe 3Al based alloy with equiaxed grain have been investigated. The experimental results indicate that in comparison with binary Fe 3Al, the addition of Cr decreases the temperature T c and increases the tensile elongation, which is related with the decrease of interatomic energy and APB energy; other elements increase T c and decrease the ductility. Based on the site occupations of alloying elements, atomic dissociation energy and APB energy are also discussed.
出处
《中国有色金属学报》
EI
CAS
CSCD
1996年第4期101-105,共5页
The Chinese Journal of Nonferrous Metals
基金
国家自然科学基金
冶金工业部科技司
中国核工业总公司资助
关键词
亚点阵
位错
塑性
金属间化合物
结构
Fe 3Al sublattice antiphase boundary order disorder transition plasticity
