Investigation of precipitation hardening in Cu-2Be-0.2Co by Vickers microhardness and electrical resistance

F. Sachslehner, V. Gröger, F. Stangler
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引用次数: 8

Abstract

AbstractSamples of the commercial alloy Cu-2Be were aged at 325, 280, 250, and 230°C in a high purity helium atmosphere. Vickers micro hardness testing was carried out taking advantage of the fact that in the case of this very fine grained alloy the microhardness is almost independent of load. It is shown that a precise microhardness measurement when combined with an electrical resistance measurement is highly suitable for investigations of the GP zone stage and the γ′ phase. Isotherms of microhardness indicate the beginning of growth of the γ′ phase by a marked steepening of their slopes. The maximum hardness can be taken as a measure of the completion of the hardening process. Isotherms of the change in electrical resistance show two other significant points: the resistance maximum which records the GP zone density, and thereafter the intersection of the resistance curve with the abscissa which indicates a time related to the disappearance of GP zones.
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用维氏显微硬度和电阻研究Cu-2Be-0.2Co的析出硬化
摘要将Cu-2Be合金样品分别在325、280、250和230℃的高纯氦气氛中进行时效处理。维氏显微硬度测试是利用这一事实进行的,在这种情况下,晶粒非常细的合金的显微硬度几乎与负载无关。结果表明,精确的显微硬度测量与电阻测量相结合,非常适合于GP区阶段和γ′相的研究。显微硬度的等温线表明,γ′相开始生长,其斜率明显变陡。最大硬度可作为硬化过程完成程度的衡量标准。电阻变化的等温线显示了另外两个重要的点:记录GP区密度的电阻最大值,以及此后电阻曲线与横坐标的交点,横坐标表示与GP区消失有关的时间。
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