功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
9期
1130-1133
,共4页
陈卫平%李志刚%邵先亦%刘彦平%钟文武
陳衛平%李誌剛%邵先亦%劉彥平%鐘文武
진위평%리지강%소선역%류언평%종문무
制备态薄膜%FeZrBCu合金%软磁性能%巨磁阻抗
製備態薄膜%FeZrBCu閤金%軟磁性能%巨磁阻抗
제비태박막%FeZrBCu합금%연자성능%거자조항
as-deposited film%FeZrBCu alloy%soft magnetic property%giant magnetoimpedance
采用射频溅射法在单晶Si衬底上制备了Fe88Zr7B5)100-xCux(x=0、1、2、3、4)非晶薄膜样品,对其软磁特性和巨磁阻抗(GMI)变化行为进行了测量和研究。测量结果显示,加入适量Cu元素(x=3)的制备态样品具有极好的软磁性能和GMI效应,此样品的矫顽力仅有56A/m,在13MHz的频率下,最大有效磁导率(μe)比和GMI比分别为42.5%和17.0%。研究发现,制备态样品的电阻R、电抗X和阻抗Z都随Cu含量的增加而下降。X=0、4两个样品的μe、R、X、Z对外加磁场响应极不敏感,只有软磁性能优异的x=3样品的μe、R、X、Z才显示出对外加磁场响应敏感,因而有显著的GMI效应。样品拥有高的磁导率、小的矫顽力和低的电阻率是获得大GMI效应的本质条件。
採用射頻濺射法在單晶Si襯底上製備瞭Fe88Zr7B5)100-xCux(x=0、1、2、3、4)非晶薄膜樣品,對其軟磁特性和巨磁阻抗(GMI)變化行為進行瞭測量和研究。測量結果顯示,加入適量Cu元素(x=3)的製備態樣品具有極好的軟磁性能和GMI效應,此樣品的矯頑力僅有56A/m,在13MHz的頻率下,最大有效磁導率(μe)比和GMI比分彆為42.5%和17.0%。研究髮現,製備態樣品的電阻R、電抗X和阻抗Z都隨Cu含量的增加而下降。X=0、4兩箇樣品的μe、R、X、Z對外加磁場響應極不敏感,隻有軟磁性能優異的x=3樣品的μe、R、X、Z纔顯示齣對外加磁場響應敏感,因而有顯著的GMI效應。樣品擁有高的磁導率、小的矯頑力和低的電阻率是穫得大GMI效應的本質條件。
채용사빈천사법재단정Si츤저상제비료Fe88Zr7B5)100-xCux(x=0、1、2、3、4)비정박막양품,대기연자특성화거자조항(GMI)변화행위진행료측량화연구。측량결과현시,가입괄량Cu원소(x=3)적제비태양품구유겁호적연자성능화GMI효응,차양품적교완력부유56A/m,재13MHz적빈솔하,최대유효자도솔(μe)비화GMI비분별위42.5%화17.0%。연구발현,제비태양품적전조R、전항X화조항Z도수Cu함량적증가이하강。X=0、4량개양품적μe、R、X、Z대외가자장향응겁불민감,지유연자성능우이적x=3양품적μe、R、X、Z재현시출대외가자장향응민감,인이유현저적GMI효응。양품옹유고적자도솔、소적교완력화저적전조솔시획득대GMI효응적본질조건。
The soft magnetic properties and giant magnetoimpedance (GMI) effect of the amorphous films of (Fe88Zr7B5)100-xCux(x=0, 1,2,3 and 4) prepared by radio frequency sputtering on the substrate of single crystal Si were measured. The result show that the sample with a adequate Cu content (x=3) have excellent soft magnetic properties and GMI effect even though in the as-deposited state. For example, its coercive field is only about 56A/m and its maximum values of effective permeability (μe) and GMI ratios are 42.5% and 17.0% at the frequency of 13MHz, respectively. It is found that resistance (R), reactance (X), and impedance (Z) decrease with increasing Cu content for as-deposited samples. The measured values ofμe, R, X and Z are sensitive to external magnetic field for the x=3 sample, while they are almost unresponsive for the X=0 or 4 samples. Our results indicated that the essential requirements for a material to exhibit noticeable GMI effect are high permeability, small coercivity and low resistivity.
