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作 者:姚映君
机构地区:[1]北京有色金属与稀土应用研究所,北京100012
出 处:《有色金属与稀土应用》2006年第3期14-23,共10页Non-Ferrous Metals & Rareearth
摘 要:通过硬度测试、拉伸测试、电导率测试、金相分析、XRD、SEM等方法研究了固溶-时效工艺对上述合金力学性能,导电性能及其组织结构的影响和变化规律。研究结果表明:1.Cu-Zr合金和Cu-Ag-Zr合金的最佳形变热处理制度是,固溶950℃×1h+变形30%+时效450℃×4h,合金的抗拉强度分别达到365MPa和367MPa,屈服强度分别达到了327MPa和338MPa,延伸率则分别为11%和12%;同一条件下的电导率分别为93.8IACS%和95.2IACS%;2.理论上分析认为,Cu-Zr合金的高强度来源于铜锆化合物粒子的析出强化,高导电性来源于合金在时效过程中Zr以铜锆化合物粒子的形式析出:3.Cu-Ag-Zr合金的力学性能和电学性能均优于Cu-Zr合金的力学性能和电学性能,那是因为Cu-Ag-Zr合金中添加了Ag,Ag产生了固溶强化,提高了合金的强度而不降低其电导率。The microstructures and properties of them were studied using tensile test, hardness and electrical properties measurement, and metallography, XRD and SEM analysis technique.The results show that: The first, the optimized heat treatment of Cu-Zr alloy and Cu-Ag-Zr alloy that both reduced by 30% is solution treatment at 950℃ for 60min, quenched,and then aging at 450℃ for 4h, the mechanical and electrical performance of Cu-Zr alloy can reachσb= 365MPa, σ0.2 =327MPa, δ5=11% σr =93.8IACS%,while Cu-Ag-Zr can reachσb=367MPa, σ0.2=338MPa, δ5=12% σr=95.2IACS%; The second, we can make a conclusion that during aging, solid solution decomposed and Cu-Zr particles precipitated,and grain refinement, the alloy have obviously aging strengthening effect; because Ag and Zr do not reduce the electric property of copper alloy, and Zr will precipitate from matrix in aging treatment.Finally, the mechanical and electrical performance of Cu-Ag-Zr alloy is higher than Cu-Zr alloy.That is because the higher performance comes from the solid solution decomposed.
分 类 号:TG146.414[一般工业技术—材料科学与工程]
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