IMPACT OF COLD PLASTIC DEFORMATION AND THERMAL POST-TREATMENT ON THE PHYSICAL PROPERTIES OF COPPER BASED ALLOYS Al-BRONZE AND α-BRASS

IF 1.1 Q3 METALLURGY & METALLURGICAL ENGINEERING

Acta Metallurgica Slovaca Pub Date : 2021-09-13 DOI:10.36547/ams.27.3.951

Samiul Kaiser, M. S. Kaiser

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引用次数: 1

Abstract

The copper based alloys Al-bronze and α-brass containing each of 10wt% aluminum and zinc were prepared by casting. Afterwards, the specimens were cold-rolled with various percentages of deformation and the cold-rolled samples were aged subsequently at the varied time for four hours and temperatures ranging up to 500°C. Samples underwent characterizations by microhardness testing, electrical resistivity, optical properties, differential scanning calorimetry as well as microstructure analysis using an optical microscope. The results showed that the hardening of Cu-based alloys was taken place due to solid-solution hardening. Al addition accelerated the hardness through ageing due to the formation of various intermetallic copper aluminites into the aged alloy which was hard and brittle in nature. The resistivity decreased marginally through heat treatment due to the stage of stress relieving, recovery, precipitation coarsening as well as recrystallization and increased for arranging different intermetallics into the alloys. The microstructural study revealed that the cold rolled alloys content the different phases of elongated grain at the rolling direction. Meanwhile higher ageing temperatures at 500°C for one hour led to recrystallization and grain growth especially in pure copper and Cu-10Zn alloys.

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冷塑性变形和热后处理对铜基合金Al、青铜和α-黄铜物理性能的影响

通过铸造制备了铝和锌含量分别为10wt%的铜基合金Al青铜和α-黄铜。然后，以不同的变形百分比对试样进行冷轧，随后在不同的时间和高达500°C的温度范围内对冷轧试样进行老化4小时。样品通过显微硬度测试、电阻率、光学性能、差示扫描量热法以及光学显微镜微观结构分析进行表征。结果表明，铜基合金的硬化是由于固溶硬化引起的。铝的添加通过时效加速了硬度，这是由于在时效合金中形成了各种金属间铜铝盐，而时效合金本质上是硬脆的。由于应力消除、恢复、沉淀粗化和再结晶阶段，电阻率在热处理过程中略有下降，而在合金中排列不同的金属间化合物时电阻率增加。微观组织研究表明，冷轧合金在轧制方向上含有不同的细长晶粒相。同时，在500°C下一小时的较高时效温度会导致再结晶和晶粒生长，尤其是在纯铜和Cu-10Zn合金中。

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