铜镍合金的热变形特性与挤压

Metals technology Pub Date : 1984-01-01 DOI:10.1179/030716984803274819

D. W. Livesey, C. Sellars

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引用次数: 4

摘要

摘要在700 ~ 1000℃的温度范围内，对三种含镍量分别为34%、43%和68%的Cu-Ni合金进行了平面应变压缩试验。应变速率为1和10 s−1时的应力-应变曲线均表现为流动应力峰值，然后降至稳态值，这是动态再结晶发生的特征;然而，变形加热大大增加了下降的程度。在900℃及以上温度下，静态再结晶发生的时间为> 1 s，导致无位错的晶粒结构，即使在淬火样品中也是如此。合金的润滑热挤压得到的压力-距离曲线的形式与钢的相似。运行压力可以用先前从钢的热挤压研究中得到的传热和摩擦条件的数据以合理的精度计算出来。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Hot-deformation characteristics and extrusion of copper–nickel alloys

AbstractPlane-strain compression tests have been carried out over the temperature range 700–1000°C on three Cu–Ni alloys containing 34, 43, and 68%Ni. The stress-strain curves at strain rates of 1 and 10 s−1 all show a peak in flow stress, followed by a fall to a steady–state value, which is characteristic of the occurrence of dynamic recrystallization; the extent of the fall is, however, significantly increased by deformational heating. At 900°C and above, static recrystallization occurs in times of ≲ 1 s, leading to dislocation-free grain structures, even in quenched samples. Lubricated hot extrusion of the alloys gives pressure–distance curves similar in form to those obtained for steels. Running pressures can be calculated with reasonable accuracy using data on heat-transfer and friction conditions derived previously from hot-extrusion studies on steels.

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Metals technology

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