Formation mechanism of Fe3Al and FeAl intermetallic compounds during mechanical alloying

Enayati MH; Salehi M

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Formation mechanism of Fe3Al and FeAl intermetallic compounds during mechanical alloying

机译：机械合金化过程中Fe3Al和FeAl金属间化合物的形成机理

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Fe and Al elemental powder mixtures with composition Fe75Al25 and Fe50Al50 were mechanically alloyed in a planetary ball mill under different conditions. The structural changes of powder particles were studied by x-ray diffractometery and scanning. electron microscopy. Mechanical alloying of Fe75Al25 and Fe50Al50 first produced a fine Fe/Al layered microstructure which transformed directly to the corresponding intermetallic compounds, Fe3Al and FeAl, with nanocrystalline structure at longer milling time. No intermediate phase, i.e. solid solution, was formed during mechanical alloying as a precursor to the intermetallic phase. The rate of mechanical alloying process was found to be dependent on milling variables such as rotation speed of mill, ball-to-powder weight ratio and number of milling balls. (c) 2005 Springer Science + Business Media, Inc.

机译：在不同条件下，用行星式球磨机对组成为Fe75Al25和Fe50Al50的Fe和Al元素粉末混合物进行机械合金化。通过X射线衍射仪和扫描仪研究了粉末颗粒的结构变化。电子显微镜。 Fe75Al25和Fe50Al50的机械合金化首先产生了精细的Fe / Al层状微观结构，该组织直接转变为相应的金属间化合物Fe3Al和FeAl，并在更长的铣削时间下具有纳米晶体结构。在机械合金化过程中没有形成中间相，即固溶体，作为金属间相的前体。发现机械合金化的速率取决于研磨变量，例如研磨机的旋转速度，球粉重量比和研磨球的数量。（c）2005年Springer Science + Business Media，Inc.

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《Journal of Materials Science》 |2005年第15期|共6页
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Enayati MH; Salehi M;
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中图分类工程材料学;
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IRON;

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Formation mechanism of Fe3Al and FeAl intermetallic compounds during mechanical alloying

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