稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
1161-1163
,共3页
陈兴品%李明亚%刘庆%韩征和
陳興品%李明亞%劉慶%韓徵和
진흥품%리명아%류경%한정화
Bi-2223/Ag%交流磁化率%标度律%临界电流密度
Bi-2223/Ag%交流磁化率%標度律%臨界電流密度
Bi-2223/Ag%교류자화솔%표도률%림계전류밀도
Bi-2223/Ag%ACS%scaling%critical current density
对Bi-2223/Ag多芯高温超导带材的交流磁化率的标度行为进行了探讨研究.测量了在外加磁场垂直于带材表面时,样品的交流磁化率与温度和磁场之间的关系.结果表明,外加交流磁场对实部和虚部的影响非常显著,交流磁化率的实部和虚部的转变宽度强烈依赖于外加磁场的大小.选择虚部峰值处的温度作为缩放参数,对实部和虚部的测量结果进行归一化处理,结果发现在外加磁场为(325~32.5)×10~(-4) T的条件下,所测量的全部交流磁化率的实部和虚部曲线都可以约化为一条曲线,得到一个普遍的标度律关系,在50~100 K的温度范围内,该交流磁化率的标度律关系与试验数据非常吻合,根据这一特性,推导出了铋系多芯高温超导带材的临界电流密度方程.
對Bi-2223/Ag多芯高溫超導帶材的交流磁化率的標度行為進行瞭探討研究.測量瞭在外加磁場垂直于帶材錶麵時,樣品的交流磁化率與溫度和磁場之間的關繫.結果錶明,外加交流磁場對實部和虛部的影響非常顯著,交流磁化率的實部和虛部的轉變寬度彊烈依賴于外加磁場的大小.選擇虛部峰值處的溫度作為縮放參數,對實部和虛部的測量結果進行歸一化處理,結果髮現在外加磁場為(325~32.5)×10~(-4) T的條件下,所測量的全部交流磁化率的實部和虛部麯線都可以約化為一條麯線,得到一箇普遍的標度律關繫,在50~100 K的溫度範圍內,該交流磁化率的標度律關繫與試驗數據非常吻閤,根據這一特性,推導齣瞭鉍繫多芯高溫超導帶材的臨界電流密度方程.
대Bi-2223/Ag다심고온초도대재적교류자화솔적표도행위진행료탐토연구.측량료재외가자장수직우대재표면시,양품적교류자화솔여온도화자장지간적관계.결과표명,외가교류자장대실부화허부적영향비상현저,교류자화솔적실부화허부적전변관도강렬의뢰우외가자장적대소.선택허부봉치처적온도작위축방삼수,대실부화허부적측량결과진행귀일화처리,결과발현재외가자장위(325~32.5)×10~(-4) T적조건하,소측량적전부교류자화솔적실부화허부곡선도가이약화위일조곡선,득도일개보편적표도률관계,재50~100 K적온도범위내,해교류자화솔적표도률관계여시험수거비상문합,근거저일특성,추도출료필계다심고온초도대재적림계전류밀도방정.
The scaling behavior of AC susceptibility (ACS) of a multifilament silver-sheathed Bi-2223 tape was investigated. The ACS was measured as a function of temperature and AC magnetic field amplitude applied perpendicular to the tape plane (H//c). It was found that the AC field has a strong effect on the transition of the ACS, and the transition width in the real and imaginary parts of ACS is strongly dependent on the amplitude of the AC magnetic field. We studied this behavior of ACS through a scaling method using the peak temperature of its imaginary part as the scaling parameter, and found that all measured ACS curves can be scaled onto a single curve for AC magnetic field amplitudes from 0.325×10~(-4) T to 32.5×10~(-4) T. The scaling behavior of ACS could be fitted well to experiments data at the temperature of 50~100 K; based on this result, the critical current density of the multifilament Bi-2223/Ag tape as a functional of temperature was deduced.
