摘要
采用大气熔炼的方法制备3种成分的Cu-Fe-P-Zn合金,并利用光学显微镜、扫描电镜和能谱分析等测试手段对合金的铸态组织及成分偏析进行了研究。结果表明:Cu-2.3Fe-0.03P-0.12Zn合金合适的均匀化处理制度为960℃保温6 h。Cu-2.3Fe-(0.4~0.6)P-0.12Zn合金的铸态组织除存在明显的枝晶外,还有大量未溶解的富Fe和P的Fe2P和Fe3P相,最大粒径可达15μm。随着P含量的增加,未溶相也逐渐增多。经过960℃均匀化退火处理后,各合金的枝晶组织可基本消除,但Cu-2.3Fe-(0.4~0.6)P-0.12Zn合金的未溶相熔点高,很难通过均匀化退火来消除。模拟得到铜铁合金的均匀化动力学计算公式为:1/T=3.835×10-5ln(1.2×10-3t/L2)。
Three kinds of Cu-Fe-P-Zn alloys were prepared by atmospheric melting, and the microstructure and segregation of as-cast alloy were investigated by optical microscopy, scanning electron microscopy and energy dispersive spectrum. The results show that the suitable uniform heat treatment system of cast Cu-2.3Fe-0.03P-0.12Zn alloy is 960~C for 6 h. The cast Cu-2.3Fe-(0.4-0.6)P-0.12Zn alloys present obvious dendrite structure, and a large number of Fe and P phases sized up to 15 μm are not dissolved. As the P concentration increases, undissolved phases gradually increase. After 960 ~C annealing treatment, the alloy dendrites can be basically eliminated, but the Cu-2.3Fe-(0.4-0.6) P-0.12Zn alloys with high melting point are not dissolved. It is difficult to eliminate the undissolved phase by homogenization. Homogenization dynamics formula of copper-iron alloy is as follow: 1/T=3.835 × 10-5 ln(1.2 × 10-3 fiLE).
出处
《中南大学学报(自然科学版)》
EI
CAS
CSCD
北大核心
2012年第12期4658-4665,共8页
Journal of Central South University:Science and Technology
基金
安徽省科技攻关计划项目(08010201026)