冷却速率对镁合金微偏析行为的影响

Md. Imran Khan, Ahmad Mostafa, M. Aljarrah, E. Essadiqi, M. Medraj
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引用次数: 27

摘要

采用AZ91D、AM60B和AE44合金的楔形(v形)铸件,研究了冷却速度对三种重要工业镁合金显微组织和微偏析的影响。分布热电偶以测量楔形铸件六个不同位置的冷却速率。根据EDS/WDS分析得到的化学成分,绘制了溶质重分布曲线。利用光学显微镜和扫描电镜分析了枝晶臂间距和二次相粒度等微观结构和形态特征。随着冷却速率的降低,三种合金的枝晶臂间距和二次相粒径均呈增大趋势。随着冷却速度的降低,AE44合金的二次相颗粒面积百分比降低。AZ91D和AM60B合金的变化趋势不同,两种合金的β-Mg17Al12的面积百分比随着冷却速率的降低而增加,直到位置4,然后略有下降。在较慢的冷却速率下,微偏析的趋势更为严重,这可能是由于长时间的反向扩散。在较慢的冷却速率下,枝晶核心处铝的最小浓度低于较快的冷却速率。根据实验得到的数据计算了偏析偏差参数和偏析系数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Cooling Rate on Microsegregation Behavior of Magnesium Alloys
The effect of cooling rate on microstructure and microsegregation of three commercially important magnesium alloys was investigated using Wedge (V-shaped) castings of AZ91D, AM60B, and AE44 alloys. Thermocouples were distributed to measure the cooling rate at six different locations of the wedge casts. Solute redistribution profiles were drawn based on the chemical composition analysis obtained by EDS/WDS analysis. Microstructural and morphological features such as dendrite arm spacing and secondary phase particle size were analyzed using both optical and scanning electron microscopes. Dendritic arm spacing and secondary phase particle size showed an increasing trend with decreasing cooling rate for the three alloys. Area percentage of secondary phase particles decreased with decreasing cooling rate for AE44 alloy. The trend was different for AZ91D and AM60B alloys, for both alloys, area percentage of β-Mg17Al12 increased with decreasing cooling rate up to location 4 and then decreased slightly. The tendency for microsegregation was more severe at slower cooling rates, possibly due to prolonged back diffusion. At slower cooling rate, the minimum concentration of aluminum at the dendritic core was lower compared to faster cooled locations. The segregation deviation parameter and the partition coefficient were calculated from the experimentally obtained data.
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