Deformation and microstructure characterization during semi-solid extrusion of Al-4Cu-Mg alloy

Deformation and microstructure characterization during semi-solid extrusion of Al-4Cu-Mg alloy

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摘要 Effects of the process parameters, including deformation temperature, punch velocity and extrusion ratio, on the deformation and microstructure characterization during the semi-solid extrusion of Al-4Cu-Mg alloy, were investigated. The experimental results show that the load decreases with an increase of deformation temperature and/or a decrease of punch velocity. When the displacement is more than 4 mm,the load decreases significantly with an increase of the deformation temperature, which is related to the high liquid fraction. The microstructure varies with the process parameters and deformation regions. It can be found that the dynamic recovery occurs during the semi-solid extrusion of Al-4Cu-Mg alloy at lower deformation temperature. Subsequently, the microstructure elongated gradually polygonizes with an increase of deformation temperature. So, the higher deformation temperature should be chosen during the semi-solid extrusion of Al-4Cu-Mg alloy because the grains polygonized and high liquid fractions are beneficial to deformation. Effects of the process parameters, including deformation temperature, punch velocity and extrusion ratio, on the deformation and microstructure characterization during the semi-solid extrusion of Al-4Cu-Mg alloy, were investigated. The experimental results show that the load decreases with an increase of deformation temperature and/or a decrease of punch velocity. When the displacement is more than 4 mm, the load decreases significantly with an increase of the deformation temperature, which is related to the high liquid fraction. The microstructure varies with the process parameters and deformation regions. It can be found that the dynamic recovery occurs during the semi-solid extrusion of Al-4Cu-Mg alloy at lower deformation temperature. Subsequently, the microstructure elongated gradually polygonizes with an increase of deformation temperature. So, the higher deformation temperature should be chosen during the semi-solid extrusion of Al-4Cu-Mg alloy because the grains polygonized and high liquid fractions are beneficial to deformation.

作者卢雅琳李淼泉李兴成

机构地区 School of Materials Science and Engineering School of Mechanical and Automobile Engineering

出处《中国有色金属学会会刊：英文版》 CSCD 2006年第A03期1606-1609,共4页 Transactions of Nonferrous Metals Society of China

基金 Project(BK2005025) supported by the Fundamental Research Project of Jiangsu Province, China

关键词铝铜镁合金金属变形微观结构半固体 Al-4Cu-Mg alloy semi-solid extrusion deformation characterization microstructure

分类号 TG249 [金属学及工艺—铸造]

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参考文献10

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中国有色金属学会会刊：英文版

2006年第A03期

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Deformation and microstructure characterization during semi-solid extrusion of Al-4Cu-Mg alloy

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