快速凝固Ni3al合金带中lders带的形成

Acta Metallurgica et Materialia Pub Date : 1995-12-01 DOI:10.1016/0956-7151(95)00140-Q

G. González-Doncel, P. Adeva, M.C. Cristina, J. Ibáñez

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引用次数: 10

摘要

讨论了Ni-20Al-12Cr-1.8Mo金属间合金带在300-770 K快速凝固过程中形成l ders带的现象。观察到试样的强度和 ders带方向与温度无关。然而，载荷-伸长曲线l ders区域的流动特性对温度非常敏感。在低温(<470 K)下，观察到具有少量不稳定性的平坦塑性区;但在较高温度下(470 K)，呈现出明显的锯齿形，锯齿形的幅度随温度升高而增大。表明屈服是由晶界位错产生引起的，位错产生所需的应力(σeff)为非热应力。然而，由晶界位错的动态堆积引起的温度相关应力(动应力)被引入为德尔斯锋面运动的速率控制，并负责锯齿形的出现。

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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Lüders bands formation in a rapidly solidified Ni3al alloy ribbon

The phenomenology of Lüders bands formation in a rapidly solidified Ni-20Al-12Cr-1.8Mo intermetallic alloy ribbon in the temperature range of 300-770 K is discussed. It was observed that strength and Lüders bands aspect on the specimen were irrespective of temperature. The flow characteristics in the Lüders region of the load-elongation curve were, however, very temperature sensitive. At low temperatures (<470 K), a flat plastic region with few instabilities was seen; but at higher temperatures (>470 K), a clear serrated behavior was manifested and the amplitude of serration increased with temperature. It is suggested that yielding occurs by dislocation generation at grain boundaries and that the stress required for dislocation generation (σ_eff) is athermal. A temperature dependent stress originated by the dynamic pile-up of dislocations at grain boundaries (dynamic stress) is, however, introduced as rate controlling for Lüders front motion and responsible for serration appearance.

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Acta Metallurgica et Materialia

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