功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
9期
1217-1220
,共4页
王海成%张恩%王立锦%于广华
王海成%張恩%王立錦%于廣華
왕해성%장은%왕립금%우엄화
化学沉积%CoNiP薄膜%磁性%磁记录特性
化學沉積%CoNiP薄膜%磁性%磁記錄特性
화학침적%CoNiP박막%자성%자기록특성
chemical wet deposition%CoNiP films%magnetic property%magnetic recording performance
采用化学湿法沉积制备了Co-Ni-P磁性薄膜,研究了工艺条件对其磁性的影响,并对其作为磁旋转编码器磁鼓记录介质的记录特性进行了分析。研究结果表明,薄膜矫顽力和矩形比随施镀时间增加而下降。当施镀时间为3min时,Co-Ni-P薄膜矫顽力可达42506.4A/m,矩形比为0.55。X射线衍射及扫描电镜结果表明,随施镀时间增加,薄膜矫顽力下降,晶粒尺寸变大,并发生明显的择优取向。将化学沉积Co-Ni-P薄膜应用于磁旋转编码器的磁鼓记录介质,记录特性测试结果表明,输出信号良好,脉冲计数完整,波形良好,可完整写入2048对磁极。化学沉积Co-Ni-P磁性薄膜适合于高精度、高分辨率的磁旋转编码器的磁鼓记录材料。
採用化學濕法沉積製備瞭Co-Ni-P磁性薄膜,研究瞭工藝條件對其磁性的影響,併對其作為磁鏇轉編碼器磁鼓記錄介質的記錄特性進行瞭分析。研究結果錶明,薄膜矯頑力和矩形比隨施鍍時間增加而下降。噹施鍍時間為3min時,Co-Ni-P薄膜矯頑力可達42506.4A/m,矩形比為0.55。X射線衍射及掃描電鏡結果錶明,隨施鍍時間增加,薄膜矯頑力下降,晶粒呎吋變大,併髮生明顯的擇優取嚮。將化學沉積Co-Ni-P薄膜應用于磁鏇轉編碼器的磁鼓記錄介質,記錄特性測試結果錶明,輸齣信號良好,脈遲計數完整,波形良好,可完整寫入2048對磁極。化學沉積Co-Ni-P磁性薄膜適閤于高精度、高分辨率的磁鏇轉編碼器的磁鼓記錄材料。
채용화학습법침적제비료Co-Ni-P자성박막,연구료공예조건대기자성적영향,병대기작위자선전편마기자고기록개질적기록특성진행료분석。연구결과표명,박막교완력화구형비수시도시간증가이하강。당시도시간위3min시,Co-Ni-P박막교완력가체42506.4A/m,구형비위0.55。X사선연사급소묘전경결과표명,수시도시간증가,박막교완력하강,정립척촌변대,병발생명현적택우취향。장화학침적Co-Ni-P박막응용우자선전편마기적자고기록개질,기록특성측시결과표명,수출신호량호,맥충계수완정,파형량호,가완정사입2048대자겁。화학침적Co-Ni-P자성박막괄합우고정도、고분변솔적자선전편마기적자고기록재료。
CoNiP thin films were prepared by chemical wet depositon, and the effect of plating parameters on (20- NiP magnetic property and magnetic recording performance in magnetic rotary encoders were studied. The results showed that, the films coercivity and squareness ratio decreased with the increasing of plating time. When the plating time was 3rain, Co-Ni-P film coercivity was 42506.4A/m and squareness ratio was 0.55, seperately. X-ray diffraction and scanning electron microscopy results indicated that, with the plating time increased, the films coercivity decreased, the grains grew larger, and exhibited a preferred orientation. The CoNiP film was used to make a 60 mm diameter magnetic drum of a magnetic retory encoder. The recording performance testing results revealed that the CoNiP films could be recorded 2048 original magnetic poles while the amplitude of the Output square waves were uniform. It is suggested that the chemical deposition CoNiP films could be a promis- ing candidate as recording media for high accuracy and high resolution magnetic rotary encoders.
