稀铝铜、铝锌和铝锰二元合金中的应变硬化:实验与建模

Bernhard Viernstein, Laszlo Solyom, Ernst Kozeschnik
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引用次数: 0

摘要

在热机械加工过程中,溶解的合金元素会影响整个位错储存率,从而对微观结构的演变产生巨大影响。特别是对于不可热处理的铝合金,应变硬化和固溶强化的影响具有重要的实际意义。在本研究中,我们对不同溶质浓度的二元铝-铜、铝-锌和铝-锰合金的室温加工硬化行为进行了详细研究。记录了不同应变速率下的应力-应变曲线,并通过先进的 3 内部变量模型(3IVM)方法对位错密度演变进行了计算分析。初始强化率是溶质浓度的函数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Strain Hardening in Dilute Binary Al–Cu, Al–Zn, and Al–Mn Alloys: Experiment and Modeling

Strain Hardening in Dilute Binary Al–Cu, Al–Zn, and Al–Mn Alloys: Experiment and Modeling

During thermo-mechanical processing, dissolved alloying elements have a huge impact on the microstructure evolution by influencing the overall dislocation storage rate. Especially, for non-heat treatable Al alloys, the effects of strain-hardening and solid solution strengthening are of significant practical interest. In the present work, a detailed study of the room temperature work-hardening behavior of binary Al–Cu, Al–Zn, and Al–Mn alloys with varying solute concentrations is carried out. Stress–strain curves at different strain rates are recorded and computationally analyzed by an advanced 3-Internal-Variables-Model (3IVM) approach for the dislocation density evolution. The initial strengthening rate is examined as a function of the solute concentration.

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