重掺杂/spl β /-FeSi/sub - 2/纳米复合热电陶瓷的机械化学制备与研究

Proceedings KORUS 2000. The 4th Korea-Russia International Symposium On Science and Technology Pub Date : 2000-06-27 DOI:10.1109/KORUS.2000.866114

E. Belyaev, G. Suchkova, A. I. Ancharov, S. Avramchuk, N. Slavnykh, S. Mamylov, O. Lomovsky

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引用次数: 0

摘要

二硅化铁是一种极具发展前景的发电机热电材料，可批量生产。效率低(ZT/spl sim/0.2-0.4)。提高效率的方法有:减小颗粒尺寸(到纳米级)，非常规合金元素和多组分掺杂，异相添加剂，2D (3D)超晶格生产。本工作的目的是机械化学合成基于掺杂/spl β /-FeSi/sub 2/的纳米复合材料，并研究多组分掺杂对热电性能的影响。在钢球加速度为600 m/sec/sup / /的强化行星球磨机中进行了元素的机械合金化。强度因子随球直径(3 ~ 15 mm)的不同而变化。用x射线衍射仪对粉末样品进行了分析。机械合金化后，相含量为FeSi、/spl β /-FeSi/sub 2/和Fe(Si)的混合物。平均粒径为200 ~ 1000 nm。反应烧结得到了晶粒尺寸为20 ~ 100 nm的纳米复合材料。经压实和低温退火后，相含量为热电β -二硅化铁。研究了掺杂剂的状态和电学特性。

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Mechanochemical production and investigation of nanocomposite thermoelectric ceramics based on heavy multicomponent doped /spl beta/-FeSi/sub 2/

Iron disilicide is a prospective thermoelectric material for generators, available for mass production. It has low efficiency (ZT/spl sim/0.2-0.4). There are ways to increase the efficiency: particle size decrease (to nanoscale), unconventional alloying elements and multicomponent doping, heterophase additives, 2D (3D) superlattice production. The aim of this work is to synthesise mechanochemically the nanocomposite based on doped /spl beta/-FeSi/sub 2/ and to investigate the influence of multicomponent doping on the thermoelectric properties. The mechanical alloying of elements was carried out in an intensive planetary ball mill with ball acceleration of 600 m/sec/sup 2/. The intensity factor was varied by different ball diameters (3-15 mm). The powder samples were analyzed by the X-ray diffractometry. After mechanical alloying, the phase content was mixtures of FeSi, /spl beta/-FeSi/sub 2/ and Fe(Si). The average particle sizes were 200-1000 nm. The reaction sintering leads to nanocomposites with 20-100 nm grains. After compacting and low temperature annealing, the phase content was the thermoelectric beta-iron disilicide. The dopants status and electrical characteristics were investigated.

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Proceedings KORUS 2000. The 4th Korea-Russia International Symposium On Science and Technology

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