铜模淬火工艺制备CoSb3的热电性能

H. Nakagawa, H. Tanaka, A. Kasama, K. Miyamura, H. Masumoto, K. Matsubara
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引用次数: 4

摘要

研究了一种大规模制备CoSb/sub - 3/材料的新工艺。Co和Sb在1373 K的氧化铝坩埚中熔化在一起,并在铜模中铸造以使熔体凝固。得到的合金锭主要由CoSb/sub - 3/、CoSb/sub - 2/和Sb三相组成。为使Sb与CoSb/sub - 2/发生反应而得到CoSb/sub - 3/单相,将锭在823 ~ 1073 K下退火。在热处理过程中,Sb和CoSb/sub 2/相转变为CoSb/sub 3/相和空洞。得到的CoSb/ sub3 /样品具有n型热电性质。根据x射线衍射、光学显微镜、电子能谱分析、化学分析等实验数据,讨论了Sb/Co原子比、杂质含量、密度等因素对材料性能的影响。另一方面,锭被磨碎,机械合金化和热压。热压样品显示p型热电性能。此外,机械合金化可以通过细化CoSb/sub - 3/的晶粒尺寸来有效降低导热系数。结果表明,在669 K温度下,ZT值为0.10。
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Thermoelectric properties of CoSb3 prepared by copper mold quenching technique
A novel technique to prepare CoSb/sub 3/ materials on a mass production level was studied. Co and Sb were melted together in an alumina crucible at 1373 K, and cast in a copper mold to solidify the melts. The obtained alloyed ingots consist of mainly three phases of CoSb/sub 3/, CoSb/sub 2/ and Sb. To react Sb with CoSb/sub 2/ and get a CoSb/sub 3/ single phase, the ingots were annealed at 823-1073 K. During the heat treatment, Sb and CoSb/sub 2/ phases changed to CoSb/sub 3/ phases and voids. The obtained CoSb/sub 3/ samples show n-type thermoelectric properties. Some factors affecting the properties, for example, Sb/Co atomic ratio, impurity content and density are discussed, based on the experimental data by X-ray diffractometry, optical microscopy, EPMA, chemical analysis and so on. On the other hand, an ingot was ground, mechanically alloyed and hot-pressed. The hot-pressed samples show p-type thermoelectric properties. Moreover, mechanical alloying is effective to reduce the thermal conductivity by refining the crystal grain size of CoSb/sub 3/. As a result, ZT value, 0.10 was obtained at a temperature of 669 K.
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