快速凝固<span>Fe</span>－6.5%Si合金有序结构及力学性能研究

doi:10.3724/SP.J.1037.2013.00521

金属学报

2013, Vol. 49

Issue (11): 1452-1456 DOI: 10.3724/SP.J.1037.2013.00521

论文

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快速凝固Fe－6.5%Si合金有序结构及力学性能研究

李慧¹⁾,梁永锋¹⁾,贺睿琦²⁾,林均品¹⁾, 叶丰¹⁾

1) 北京科技大学新金属材料国家重点实验室, 北京 100083
2) 邮政科学研究规划院, 北京 100096

ORDERED STRUCTURE AND MECHANICAL PROPERTIES OF Fe－6.5%Si ALLOY FABRICATED BY RAPID QUENCHING

LI Hui ¹⁾, LIANG Yongfeng¹⁾, HE Ruiqi²⁾, LIN Junpin¹⁾, YE Feng¹⁾

1) State Key Laboratory for Advanced Metals and Materials, University of Science and Technology Beijing,Beijing 100083
2) Postal Scientific Research & Planning Academy, Beijing 100096

引用本文:

李慧,梁永锋,贺睿琦,林均品,叶丰. 快速凝固Fe－6.5%Si合金有序结构及力学性能研究[J]. 金属学报, 2013, 49(11): 1452-1456.
LI Hui, LIANG Yongfeng, HE Ruiqi, LIN Junpin, YE Feng. ORDERED STRUCTURE AND MECHANICAL PROPERTIES OF Fe－6.5%Si ALLOY FABRICATED BY RAPID QUENCHING[J]. Acta Metall Sin, 2013, 49(11): 1452-1456.

全文: PDF(1889 KB)

摘要:

通过单辊快速凝固的方法制备出宽度为20 mm, 厚度为35－50 μm,连续成卷的Fe－6.5%Si合金薄带. 与普通铸造方法相比,用快速凝固方法得到的Fe－6.5%Si合金具有良好的室温塑性.采用TEM及XRD研究了普通铸锭和快凝薄带的有序化结构和微观组织,并计算了这2种制备条件下B2有序相的长程有序度. 结果表明,普通铸造方法得到的Fe－6.5%Si合金含有大量的B2和D0₃有序相,且有序度较高. 而快凝薄带晶粒细小,快的冷却速率有效地抑制了D0₃有序相的形成, 同时也降低了B2相的生长速度,使合金有序度较低, 从而使带材塑性得到明显改善.

关键词 ： Fe－6.5%Si合金, 快速凝固, 有序相, 反相畴界, TEM

Abstract：

Fe－6.5%Si alloy is one excellent soft magnetic material. However, due to the appearance of ordered phases, this alloy is very brittle at room temperature and is very hard to be fabricated into thin sheet by conventional rolling process. In this work, continuous Fe－6.5%Si ribbons of 20 mm in width, and 35－50 μm in thickness were fabricated by rapid quenching technique. The ribbons exhibited good ductility compared with ordinary cast ingots. TEM and XRD were employed to analyze the ordering and microstructure of the ordinary cast ingots and the ribbons. The long range order parameters of B2 ordered phase in these two alloys were calculated. The results showed that the cast ingot contained amounts of B2 and D0₃ ordered phases, and had high degree of order. While in rapid quenched ribbons, the grains were extremely fine, the formation of D0₃ ordering was suppressed effectively and the growth of B2 was largely decreased. The decreased ordering content and degree of order in rapid quenched ribbons lowered the anti－phase boundary energy, leading to the reduction in slip resistance, which improved the mobility of superlattice dislocations, and then obviously enhanced the ductility of the alloy.

Key words： Fe－6.5%Si alloy rapid quenching ordered phase anti－phase boundary TEM

收稿日期: 2013-08-27

基金资助:

国家重点基础研究发展计划资助项目2011CB606304－2

作者简介: 李慧, 女, 1987年生, 博士生

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https://www.ams.org.cn/CN/10.3724/SP.J.1037.2013.00521 或 https://www.ams.org.cn/CN/Y2013/V49/I11/1452

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