Synthesis and structural characterization of dense polycrystalline Mg_9Sn_5, a metastable Mg-Sn phase

A.Y. Fong; H. Xu; K. Page

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Synthesis and structural characterization of dense polycrystalline Mg_9Sn_5, a metastable Mg-Sn phase

机译：致密多晶Mg_9sn_5，亚稳态Mg-Sn相的合成和结构表征

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We present a method for synthesizing bulk dense polycrystalline Mg_9Sn_5, a phase that is related to the familiar Mg_2Sn phase but is metastable at ambient pressure and temperature. Our procedure requires significantly lower temperatures and pressures, which are in the 100 MPa range compared to the previously reported methods that required pressures in the GPa range. We used a combination of high energy ball milling and current activated pressure assisted densification (CAPAD) to synthesize and retain the high pressure phase in a bulk (low porosity) form. We show the effect of CAPAD processing temperature and pressure on the density and phase composition of the material. We also present the first neutron diffraction study to confirm phase identity and refine the structure of Mg_9Sn_5.

机译：我们介绍了一种用于合成体粒致密多晶Mg_9Sn_5的方法，该相对于熟悉的Mg_2SN相而是相关的相，但在环境压力和温度下亚稳定性。与先前报道的方法相比，我们的程序需要显着较低的温度和压力，这些温度和压力在100MPa范围内，该方法在GPA范围内需要压力。我们使用了高能量球磨和电流活性压力辅助致密化（CapAd）的组合来合成并以体积（低孔隙率）形式保持高压相。我们展示了Capad处理温度和压力对材料密度和相组成的影响。我们还介绍了第一个中子衍射研究以确认相位标识并细化Mg_9sn_5的结构。

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来源
《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2014年第null期|共7页
作者
A.Y. Fong; H. Xu; K. Page;
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作者单位

Materials Science and Engineering Program and Mechanical Engineering Department University of California Riverside CA United States;

Earth and Environmental Sciences Division Los Alamos National Laboratory NM United States;

Lujan Neutron Scattering Center-LANSCE Los Alamos National Laboratory NM United States;

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正文语种 eng
中图分类合金学与各种性质合金;金属材料;
关键词
Spark Plasma Sintering (SPS); Mechanical alloying; Neutron diffraction; Metastable phases; Intermetallic phases;

机译：火花等离子体烧结（SPS）;机械合金化;中子衍射;亚稳阶段;金属间相;

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机译：致密多晶Mg_9sn_5，亚稳态Mg-Sn相的合成和结构表征
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Synthesis and structural characterization of dense polycrystalline Mg_9Sn_5, a metastable Mg-Sn phase

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