DISLOCATION SUBSTRUCTURES OF ALUMINIUM-MAGNESIUM ALLOYS DURING THERMOMECHANICAL PROCESSING

机译：热机械加工过程中铝镁合金的位错子结构

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The dislocation substructures during thermomechanical processing have been investigated using four high purity aluminium-magnesium alloys, Al-0.13%Mg, Al-1%Mg, Al-3%Mg and Al-5%Mg. The experimental materials were deformed in a plane strain compression testing machine at 385°C and constant strain rates of 2.5/s and 25/s to strains of 1 and 1.2. A decreasing strain-rate from 25/s to 2.5/s was also applied. Transmission Electron Microscopy (TEM) was used to investigate internal dislocation density (ρ_i), subgrain size (δ) and misorientation across subgrain boundaries (θ). Experimental results show that with increasing magnesium content, internal dislocation density and misorientation across subgrain boundaries increase while subgrain size decreases. A relationship of ρ_1~(1/2)δ = c_2 with c_2 = 5 for Al-0.13%Mg and 10 for the other three alloys has been obtained from the present results.

机译：使用四种高纯度铝 - 镁合金，Al-0.13％Mg，Al-1％Mg，Al-3％Mg和Al-5％Mg研究了热机械加工过程中的位错子结构。实验材料在平面应变压缩试验机中以385℃和2.5 / s的恒定应变速率变形，25 / s至1和1.2的菌株。还应用了从25 / s至2.5 / s的降低的应变率。透射电子显微镜（TEM）用于调查内部位错密度（ρ_i），粒子尺寸（δ）和跨子界限（θ）的误导。实验结果表明，随着镁含量的增加，内部偏移密度和底层边界的杂散增加，而子粒尺寸减小。对于Al-0.13％Mg和10，对于其他三种合金的Al-0.13％Mg和10的ρ_1〜（1/2）δ= C_2的关系已经从本结果获得。

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《International conference on aluminum alloys》|1998年||共6页
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Q. Zhu; C. M. Sellars;
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中图分类 TG146.21;
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high purity Al-Mg alloys; internal dislocation density; subgrain size; misorientation across subgrain boundaries; TEM;

机译：高纯度Al-Mg合金;内部位错密度;子粒大小;跨子界限的杂乱无章;TEM;

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DISLOCATION SUBSTRUCTURES OF ALUMINIUM-MAGNESIUM ALLOYS DURING THERMOMECHANICAL PROCESSING

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