摘要
从坩埚选择、试样称取量、升温速率等方面摸索了差示扫描量热法(DSC)测试非晶材料Fe78Si9B13居里温度的最佳试验条件,分析了不同升温速率对测试结果的影响,同时与该材料晶化温度、In(标准物质)的熔点随升温速率的变化情况进行了对比分析。研究结果表明:该材料的DSC曲线上居里转变过程对应的热信号表现为一个抖动。不同条件下测得的居里温度为399-402℃,与Hall效应法测试结果基本一致。最佳的试验条件是:Al坩埚、试样称取量6mg左右、20K/min。在升温速率不小于10K/min时可以得到居里转变信号,与该材料晶化温度受热滞后影响而明显随升温速率增大而增大的情况不同,由于居里转变过程相变潜热较小,居里温度测试结果基本不受热滞后的影响。
Determination of Curie temperature of amorphous alloy Fe78Si9B13 by differential scanning calorimetry was researched from the choices of crucibles,masses of the sample and heating rates,and then the optical test conditions were obtained.The relationship of Curie temperature of amorphous alloy Fe78Si9B13 with heating rates was analyzed and compared simultaneously with the relationships of crystallization temperatures of Fe78Si9B13,melting temperature of In(standard material used for thermal analysis)with the heating rates.The results show that the heat signal of the Curie transition shows a little wave in the DSC curves.The Curie temperature obtained at different test conditions are about from 399℃ to 402℃,which are equivalent to the results obtained by the methods according to Hall effect.The best conditions are as follows:Al crucibles,mass of about 6mg,heating rate of 20K/min.It is found that the Curie signal can be obtained only as heating rates bigger than 10K/min and the results are not affected obviously by the heating rates when they are increased because of the low heat as no thermal hysteresis affect the results,while the results of crystallization temperatures increase obviously for the thermal hysteresis.
出处
《钢铁研究学报》
CAS
CSCD
北大核心
2016年第4期74-78,共5页
Journal of Iron and Steel Research
基金
北京市科技计划资助项目(2011HW13T-TD)
关键词
居里温度
差示扫描量热
升温速率
热滞后
Curie temperature
differential scanning calorimetry
heating rate
thermal hysteresis
