Cu-Fe_3C(Cr_3C_2) Bulk Nanocomposites Prepared by Mechanosynthesis Followed by Magnetic Pulse Compaction

机译：通过机械合成制备的Cu-Fe_3C（CR_3C_2）块状纳米复合材料，然后是磁脉冲压实

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The Cu-Fe_3 and Cu-Cr_3C_2 bulk nanocomposites are prepared by consolidation of the mechanically alloyed powders. The structure and properties (density, Vickers microhardness and electrical conductivity) of them have been studied. It is shown that microhardness is equal to 236 HV and 470 HV for a Cu-5 vol.% carbide phase and for a Cu-30 vol.% carbide phase, respectively. The microhardness which can be influenced by the heat treatment temperature depends on the grain size of the Cu matrix. The electrical conductivity values of 38-44% IACS (International Annealing Copper Standard) at room temperature have been found.

机译：通过固结机械合金粉末制备Cu-Fe_3和Cu-CR_3C_2块状复合材料。已经研究了它们的结构和性质（密度，维氏显微硬度和电导率）。结果表明，Cu-5体积％等于236HV和470HV。％碳化物相和用于Cu-30体积％的碳化物相。可以受热处理温度影响的显微硬度取决于Cu基质的晶粒尺寸。已经发现了在室温下为38-44％IACS（国际退火铜标准）的电导率值。

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《International Conference on Mechanochemistry and Mechanical Alloying》|2014年||共4页
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M.A. EREMINA; S.F. LOMAYEVA; E.P. YELSUKOV (ELSUKOV);
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1. Cu-Fe3C(Cr3C2) Bulk Nanocomposites Prepared by Mechanosynthesis Followed by Magnetic Pulse Compaction [J] . Eremina M. A., Lomayeva S. F., Yelsukov (Elsukova) E. P., Acta Physica Polonica . 2014,第4期

机译：机械合成然后电磁脉冲压实制备的Cu-Fe3C（Cr3C2）块状纳米复合材料
2. Bulk Fe-TiC-Fe_3C Nanocomposites Formed by Mechanical Alloying in Liquid Organic Media and by Magnetic Pulse Compaction [J] . S. F. Lomayeva, K. A. Yazovskikh, A. N. Maratkanova, Inorganic materials: applied research . 2013,第2期

机译：在液态有机介质中机械合金化并通过电磁脉冲压实形成的块状Fe-TiC-Fe_3C纳米复合材料
3. Nanostructures and mechanical properties of copper compacts prepared by magnetic pulsed compaction method [J] . Geun Hee Lee, Chang Kyu Rhee, Min Ku Lee, Materials Science and Engineering. A, Structural Materials . 2004,第Jul期

机译：磁脉冲压制法制备铜压块的纳米结构和力学性能
4. Cu-Fe_3C(Cr_3C_2) Bulk Nanocomposites Prepared by Mechanosynthesis Followed by Magnetic Pulse Compaction [C] . M.A. EREMINA, S.F. LOMAYEVA, E.P. YELSUKOV (ELSUKOV) International Conference on Mechanochemistry and Mechanical Alloying . 2014

机译：通过机械合成制备的Cu-Fe_3C（CR_3C_2）块状纳米复合材料，然后是磁脉冲压实
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Cu-Fe_3C(Cr_3C_2) Bulk Nanocomposites Prepared by Mechanosynthesis Followed by Magnetic Pulse Compaction

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