Structure of nanocomposites of Al-Fe alloys prepared by mechanical alloying and rapid solidification processing

S. S. Nayak; B. S. Murty; S. K. Pabi

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Structure of nanocomposites of Al-Fe alloys prepared by mechanical alloying and rapid solidification processing

机译：机械合金化和快速凝固工艺制备的Al-Fe合金纳米复合材料的结构

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Structures of Al-based nanocomposites of Al-Fe alloys prepared by mechanical alloying (MA) and subsequent annealing are compared with those obtained by rapid solidification processing (RSP). MA produced only supersaturated solid solution of Fe in Al up to 10 at.% Fe, while for higher Fe content up to 20 at.% the nonequilibrium intermetallic Al₅Fe₂ appeared. Subsequent annealing at 673 K resulted in more Al₅Fe₂ formation with very little coarsening. The equilibrium intermetallics, Al₃Fe (Al₁₃Fe₄), was not observed even at this temperature. In contrast, ribbons of similar composition produced by RSP formed fine cellular or dendritic structure with nanosized dispersoids of possibly a nano-quasicrystalline phase and amorphous phase along with α-Al depending on the Fe content in the alloys. This difference in the product structure can be attributed to the difference in alloying mechanisms in MA and RSP.

机译：通过机械合金化（MA）和随后的退火处理制备的Al-Fe合金的Al基纳米复合材料的结构与通过快速凝固处理（RSP）获得的结构进行了比较。 MA仅产生高达10 at。％Fe的Al中的Fe过饱和固溶体，而对于高达20 at。％Fe的更高Fe含量，非平衡金属间金属Al _{5 Fe _{2 出现了。随后在673 K退火导致形成了更多的Al _{5 Fe _{2 且几乎没有粗化。即使在此温度下也未观察到平衡金属间化合物Al _{3 Fe（Al _{13 Fe _{4 ）。相比之下，由RSP生产的具有相似成分的薄带，则形成细小的蜂窝状或树状结构，并可能具有纳米准晶相和非晶相的纳米级弥散体，以及取决于合金中的Fe含量的α-Al。产品结构的这种差异可归因于MA和RSP中合金化机理的差异。}}}}}}}

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《Bulletin of Materials Science》 |2008年第3期|p.449-454|共6页
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S. S. Nayak; B. S. Murty; S. K. Pabi;
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Nanocomposites; Al; Fe; mechanical alloying; rapid solidification; quasicrystalline;

机译：纳米复合材料;铝铁机械合金化;快速凝固;准晶;

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1. Structure of nanocomposites of Al-Fe alloys prepared by mechanical alloying and rapid solidification processing [J] . S S NAYAK, B S MURTY, S K PABI Bulletin of Materials Science . 2008,第3期

机译：机械合金化和快速凝固工艺制备的Al-Fe合金纳米复合材料的结构
2. Structure of nanocomposites of Ala€“Fe alloys prepared by mechanical alloying and rapid solidification processing [J] . B S Murty, S K Pabi, S S Nayak Bulletin of materials science . 2008,第3期

机译：机械合金化和快速凝固工艺制备的Ala•Fe合金纳米复合材料的结构
3. Formation of metastable phases and nanocomposite structures in rapidly solidified Al-Fe alloys [J] . S.S. Nayak, H.J. Chang, D.H. Kim, Materials Science and Engineering . 2011,第18期

机译：快速凝固的Al-Fe合金中亚稳态相和纳米复合结构的形成
4. Microstructural and mechanical characterization of a fine-grained and textured Ni_(51)Ti_(49) alloy prepared by rapid solidification and processed through solution treatment [C] . Caiyou Zeng, Yuanyuan Li, Zhongxun Zhao International Conference on Shape Memory and Superelastic Technologies . 2017

机译：通过快速凝固和通过溶液处理加工制备的细粒和纹理Ni_（51）Ti_（49）合金的微观结构和力学表征
5. MICROSTRUCTURE-PROPERTY CORRELATIONS IN RAPID-SOLIDIFICATION PROCESSED IRON-ALUMINUM-SILICON ALLOYS. [D] . THAMBOO, SAMUEL VINOD. 1984

机译：快速凝固处理的铁铝硅合金的微观结构性能相关性。
6. Rapidly Solidified Aluminium Alloy Composite with Nickel Prepared by Powder Metallurgy: Microstructure and Self-Healing Behaviour [O] . Alena Michalcová, Anna Knaislová, Jiří Kubásek, 2019

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7. Structure of nanocomposites of Al–Fe alloys prepared by mechanical alloying and rapid solidification processing [O] . S S Nayak, B S Murty 2015

机译：机械合金化和快速凝固加工制备al-Fe合金纳米复合材料的结构
8. Metastable Phases of Rapidly Solidified Al-Rich Al-Fe Alloys [R] . Schechtman, D., Horowitz, E. 1984

机译：快速凝固的富al-al合金的亚稳相

Structure of nanocomposites of Al-Fe alloys prepared by mechanical alloying and rapid solidification processing

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