Phase transformation of /spl beta/-FeSi/sub 2/-based alloys under in-situ high-temperature and high-pressure X-ray diffraction measurements

ICT 2005. 24th International Conference on Thermoelectrics, 2005. Pub Date : 2005-06-19 DOI:10.1109/ICT.2005.1519962

Haiyan Chen, X. B. Zhao, Jianzhong Jiang, C. Lathe, H. Franz, Gabriele Karpinski, E. Mueller

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Abstract

The dynamic behaviour of phase transformation in /spl beta/-FeSi/sub 2/ based thermoelectric materials Fe/sub 1-x/M/sub x/Si/sub 2+y/ (M = Mn or Co) has been studied by using differential scanning calorimetry (DSC) and in situ high-temperature and high-pressure X-ray powder diffraction measurements (EDXRD) using synchrotron radiation. The investigated materials were powders prepared by rapid solidification (melt spinning). It's found by DSC and EDXRD that the /spl alpha/+/spl epsi/ eutectic structures in the rapidly solidified alloys transform to /spl beta/ phase (/spl alpha/-Fe/sub 2/Si/sub 5/ + /spl epsi/-FeSi /spl rarr/ /spl beta/-FeSi/sub 2/) in a lower temperature range below 700/spl deg/C. The formed /spl beta/ phase decomposes reversely to /spl alpha/ and /spl epsi/ phase in a higher temperature range above 950/spl deg/C. The transformation temperatures T/sub 1/(/spl alpha/+/spl epsi//spl beta/) is greatly influenced by the heating rate. By EDXRD measurements, it is found that high pressures have a great influence on the phase transformation temperature T/sub 1/ and T/sub 2/ (/spl beta//spl rarr//spl alpha/+/spl epsi/). Different doping elements (Mn, Co, or Al) have also great influence on the phase transformation temperature. EDXRD has simulated the process of hot uniaxial pressing.

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高温高压x射线衍射下/spl β /-FeSi/sub - 2基合金的相变

采用差示扫描量热法(DSC)和同步辐射原位高温高压x射线粉末衍射仪(EDXRD)研究了/spl β /-FeSi/sub - 2/基热电材料Fe/sub - 1-x/M/sub -x/ Si/sub - 2+y/ (M = Mn或Co)的相变动力学行为。所研究的材料是用熔融纺丝快速凝固法制备的粉末。DSC和EDXRD分析发现，快速凝固合金中的/spl α /+/spl epsi/共晶组织在700/spl℃以下的低温范围内转变为/spl β /相(/spl α /-Fe/sub 2/Si/sub 5/ +/spl epsi/-FeSi /spl rarr/ /spl β /-FeSi/sub 2/)。形成的/spl β /相在950/spl℃以上的较高温度范围内反向分解为/spl α /相和/spl epsi/相。相变温度T/sub 1/(/spl alpha/+/spl epsi//spl beta/)受升温速率的影响较大。通过EDXRD测试发现，高压对相变温度T/sub 1/和T/sub 2/ (/spl beta//spl rarr//spl alpha/+/spl epsi/)有较大影响。不同的掺杂元素(Mn、Co、Al)对相变温度也有很大的影响。EDXRD模拟了热单轴挤压过程。

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ICT 2005. 24th International Conference on Thermoelectrics, 2005.

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