摘要
蠕墨铸铁(CGI)是制造高功率密度发动机机体及气缸盖等部件的理想材料。本试验通过金相显微分析和力学性能测试,研究了CE和Cu、Mo合金化对薄壁蠕墨铸铁组织和力学性能的影响。结果表明:CE为4.5%时,壁厚6 mm铸件的蠕化率可达到80%~85%,同时可使壁厚3 mm铸件消除游离渗碳体,获得无白口组织;Cu-Mo复合强化效果要优于Cu、Mo单因素强化作用,复合加入量为0.6%时,综合力学性能可稳定达到Rm≥450 MPa、A≥3%。
The effects of carbon equivalent (CE) and elements Cu and Mo on the microstructure and mechanical properties of thin-section compacted graphite cast iron were investigated. The results showed that the percentage of 80%-85% compacted graphite (CG) can be obtained in the casting with thickness 6 mm and the free cementite can be eliminated in the casting with thickness 3 mm when CE is 4.5%. The mechanical properties of compacted graphite cast iron are improved effectively by combining addition of Cu and Mo and when the combining addition is 0.6%, the ultimate tensile strength Rm and elongation A of the test alloy are equal to or greater than 450 MPa and 3%, respectively.
出处
《铸造》
CAS
CSCD
北大核心
2008年第3期270-273,共4页
Foundry
基金
总装备部预研项目(ZLY2006356)
关键词
蠕墨铸铁
薄壁铸件
缸盖
高功率密度发动机
compacted graphite cast iron
thin-section casting
cylinder head
high power density engine
