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Al-Zn-Mg-Cu合金在热压缩变形过程中的微观组织演变及动态软化机制

Microstructural Evolution and Dynamic Softening Mechanisms of Al-Zn-Mg-Cu Alloy during Hot Compressive Deformation.

作者信息

Shi Cangji, Lai Jing, Chen X-Grant

机构信息

Department of Applied Science, University of Québec at Chicoutimi, Saguenay, Québec G7H 2B1, Canada.

出版信息

Materials (Basel). 2014 Jan 8;7(1):244-264. doi: 10.3390/ma7010244.

Abstract

The hot deformation behavior and microstructural evolution of an Al-Zn-Mg-Cu (7150) alloy was studied during hot compression at various temperatures (300 to 450 °C) and strain rates (0.001 to 10 s). A decline ratio map of flow stresses was proposed and divided into five deformation domains, in which the flow stress behavior was correlated with different microstructures and dynamic softening mechanisms. The results reveal that the dynamic recovery is the sole softening mechanism at temperatures of 300 to 400 °C with various strain rates and at temperatures of 400 to 450 °C with strain rates between 1 and 10 s. The level of dynamic recovery increases with increasing temperature and with decreasing strain rate. At the high deformation temperature of 450 °C with strain rates of 0.001 to 0.1 s, a partially recrystallized microstructure was observed, and the dynamic recrystallization (DRX) provided an alternative softening mechanism. Two kinds of DRX might operate at the high temperature, in which discontinuous dynamic recrystallization was involved at higher strain rates and continuous dynamic recrystallization was implied at lower strain rates.

摘要

研究了Al-Zn-Mg-Cu(7150)合金在不同温度(300至450°C)和应变速率(0.001至10 s)下热压缩过程中的热变形行为和微观组织演变。提出了流动应力下降比图,并将其分为五个变形域,其中流动应力行为与不同的微观组织和动态软化机制相关。结果表明,在300至400°C的各种应变速率下以及在400至450°C且应变速率在1至10 s之间时,动态回复是唯一的软化机制。动态回复程度随温度升高和应变速率降低而增加。在450°C的高变形温度下,应变速率为0.001至0.1 s时,观察到部分再结晶微观组织,动态再结晶(DRX)提供了另一种软化机制。两种DRX可能在高温下起作用,其中较高应变速率下涉及不连续动态再结晶,较低应变速率下暗示连续动态再结晶。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/50e2/5453149/67d58999db5c/materials-07-00244f1.jpg

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