Fe_(69.5)Cu_(1.5)V_7Si_(12)B_8Al_2合金机械合金化研究  

A MECHANICAL ALLOYING STUDY ON THE Fe_(69.5)Cu_(1.5)V_7Si_(12)B_8Al_2

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作  者:朱骏[1] 朱路扬[1] 毛翔宇[1] 姜玉梅[1] 陈小兵[1] 陈允鸿[1] 

机构地区:[1]扬州大学理学院物理学系,江苏扬州225002

出  处:《扬州大学学报(自然科学版)》2002年第2期30-32,共3页Journal of Yangzhou University:Natural Science Edition

基  金:扬州大学科研基金资助项目 (1.7384E+11)

摘  要:采用机械合金化的方法 ,制备了 Fe69.5Cu1.5V7Si12 B8Al2 纳米合金样品 .研究了球磨时间对样品非晶化程度的影响 ,并测量了这些样品压结体的高频特性 .结果发现 ,球磨可形成合金化 ,随球磨时间的增加 ,样品的非晶化逐渐加强 .当球磨超过一定时间后 ,出现新的相 ,引起样品磁特性的变化 .复数磁导率实部 μ1随球磨时间 t的增加而增大 ,超过 72 h后 ,μ1开始下降 .在 4~ 1 3MHz范围内 ,μ1值随频率 f 的变化不大 .损耗角正切 tgδ随The nanometer alloy sample of Fe 69.5Cu 1.5V 7Si 12B 8Al 2 was prepared by a method of mechanical alloying. The influence of ball-milling time on amorphous character was studied and the magnetic permeabilities under different frequencies of the pressed samples were measured. The results show that an alloy may be formed by ball-milling and amorphous character is enhanced with the increasing of the milling time. New phase appears when the milling time reaches a certain time. The magnetic property changes after a period of milling time. The real part of complex magnetic permeabilities increases with milling time within 72 hours and decreases after 72 hours milling. The frequency dependence of μ 1 is not significant. In the range from 4 to 13 MHz, the loss tangent, tg δ, decreases with the increasing of milling time.

关 键 词:Fe69.5Cu1.5V7Si12B8Al2合金 机械合金化 纳米软磁合金 球磨时间  晶化 高频特性 磁性能 

分 类 号:TG132.271[一般工业技术—材料科学与工程] TF123.11[金属学及工艺—合金]

 

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