Phases evolution and Y solid solution microstructure in the Mg-6Zn-3Y alloy solidified under super-high pressure

机译：Mg-6Zn-3Y合金超高压凝固的相演变和Y固溶微观组织。

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The solidification microstructure of Mg-6Zn-3Y alloy under super-high pressure was investigated by using X-ray diffraction (XRD) and scanning electron microscope (SEM). The results show that the dendritic structure of Mg-6Zn-3 Y alloy under super-high pressure (GPa level) can be evidently refined with the increase of solidification pressure. When the pressure increases to 2 GPa, Y element can't solubilize in matrix of a-Mg, the primary Y solid solution is distributed in the shape of polygon block in the matrix. When the pressure is up to 4 GPa, the primary Y solid solution appears as symmetrical petaline shape. So Y solid solution exhibits the different morphology with the change of the pressure.

机译：利用X射线衍射（XRD）和扫描电子显微镜（SEM）研究了Mg-6Zn-3Y合金在超高压下的凝固组织。结果表明，随着凝固压力的增加，Mg-6Zn-3 Y合金在超高压（GPa水平）下的枝晶结构可以得到明显的细化。当压力增加到2 GPa时，Y元素不能溶解在a-Mg的基体中，主要的Y固溶体以多边形块的形式分布在基体中。当压力高达4 GPa时，主要的Y固溶体表现为对称的花瓣状。因此，Y固溶体随压力的变化呈现出不同的形貌。

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来源
《International conference on mechanical engineering, materials and energy》|2012年|1347-1350|共4页
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作者
DONG Yun; LIN Xiao-ping; ZHENG Runguo; JIAO Suihui;
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正文语种
中图分类机械、仪表工业;工程材料学;
关键词
refined structure; solidification under super-high pressure; dendritic structure; polygonal Y solid solution;

机译：精致的结构在超高压下凝固;树突结构多边形Y固溶体;

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Phases evolution and Y solid solution microstructure in the Mg-6Zn-3Y alloy solidified under super-high pressure

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