Cu-Fe-P系合金具有低成本，优异的导电性、力学性能优势，广泛应用在电子信息领域。为进一步提升其综合性能，本文以Cu-Fe-P系合金中的C19400合金为研究对象，研究了形变热处理工艺对力学性能、导电性其及微观组织影响规律。结果表明，合金经940 ℃×2 h（固溶）+冷轧80%+550 ℃×3.5 h+冷轧50%+550 ℃×4 h，维氏硬度160.3 HV，抗拉强度398.8MPa，导电率53.1% IACS，伸长率23.68%。显微组织分析显示，经过多级形变热处理后获得了大量弥散分布的细小的球状Fe₂P和Fe3P析出相颗粒，使合金具备良好的导电性同时也具有优异的力学性能，本研究为Cu-Fe-P系合金综合性能的提升及工程应用提供了良好的借鉴和理论指导。

Cu-Fe-P合金；形变热处理；显微组织；机械性能

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