High performance production of Bi/sub 2/Te/sub 3/ based thermoelectric materials on the route of the bulk mechanical alloying method

Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407) Pub Date : 1999-12-01 DOI:10.1109/ICT.1999.843376

Y. Iwaisako, T. Aizawa, A. Yamamoto, T. Ohta

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Abstract

In the commercial fabrication of thermoelectric materials, melting, ingot-making, pulverizing and sintering are fundamental steps for production. In the present new production method on the route of bulk mechanical alloying, the elemental constituent granules or agglomerates with any selected composition can be used for direct solid-state synthesis into single or dual phase thermoelectric materials. The Bi-Te-Sb system is adopted as the target thermoelectric material to investigate the effect of fine-grained structure on the figure of merit. In addition, temperature and pressure conditions in hot pressing are widely varied to describe the effect of process parameters on the thermoelectric properties. As a rough sketch of high performance in this processing, 3.6 ks for fabrication of green compact with the relative density of 85% T.D., 3.6 ks for hot pressing to have fine grain size in 1/spl sim/2 /spl mu/m for high density of 99% T.D. or more, and Z=3.15/spl times/10/sup -3//K in p-type Bi-Te system for the highest figure of merit.

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采用本体机械合金化方法制备高性能Bi/sub / 2/Te/sub / 3基热电材料

在热电材料的商业制造中，熔化、铸锭、粉碎和烧结是生产的基本步骤。在目前的大块机械合金化路线上的新生产方法中，元素组成颗粒或团块具有任何选定的成分可以用于直接固态合成成单相或双相热电材料。采用Bi-Te-Sb体系作为目标热电材料，研究细晶结构对性能因数的影响。此外，热压中的温度和压力条件变化很大，以描述工艺参数对热电性能的影响。作为该工艺中高性能的粗略草图，3.6 ks用于制造相对密度为85% T.D.的绿色致密物，3.6 ks用于热压以具有1/spl sim/2 /spl mu/m的细粒度，高密度为99% T.D.或更高，p型Bi-Te体系中的Z=3.15/spl次/10/sup -3//K为最高的优点。

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Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407)

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