电工材料
電工材料
전공재료
ELECTRICAL ENGINEERING MATERIALS
2014年
3期
36-39
,共4页
REBCO%缓冲层%IBAD%ISD%PLD
REBCO%緩遲層%IBAD%ISD%PLD
REBCO%완충층%IBAD%ISD%PLD
REBCO%buffer layer%IBAD%ISD%PLD
二代高温超导(REBCO)带材是材料学领域重点发展的方向之一,其发展程度将直接影响超导技术的应用程度。缓冲层作为REBCO超导带材的重要组成部分,其质量将直接影响超导带材的性能。本文在国内外相关文献的基础上,介绍了常见的缓冲层材料及性能,并对主流制备方法进行了介绍,重点阐述了离子束辅助沉积法(IBAD)、倾斜基底沉积技术(ISD)、表面氧化外延(SOE)、脉冲激光沉积法(PLD)、溅射法(Sputtering)、金属有机物沉积法(MOD)和蒸发法(Evaporation)带材及薄膜,最后指出了REBCO超导带材用缓冲层未来的发展方向。
二代高溫超導(REBCO)帶材是材料學領域重點髮展的方嚮之一,其髮展程度將直接影響超導技術的應用程度。緩遲層作為REBCO超導帶材的重要組成部分,其質量將直接影響超導帶材的性能。本文在國內外相關文獻的基礎上,介紹瞭常見的緩遲層材料及性能,併對主流製備方法進行瞭介紹,重點闡述瞭離子束輔助沉積法(IBAD)、傾斜基底沉積技術(ISD)、錶麵氧化外延(SOE)、脈遲激光沉積法(PLD)、濺射法(Sputtering)、金屬有機物沉積法(MOD)和蒸髮法(Evaporation)帶材及薄膜,最後指齣瞭REBCO超導帶材用緩遲層未來的髮展方嚮。
이대고온초도(REBCO)대재시재료학영역중점발전적방향지일,기발전정도장직접영향초도기술적응용정도。완충층작위REBCO초도대재적중요조성부분,기질량장직접영향초도대재적성능。본문재국내외상관문헌적기출상,개소료상견적완충층재료급성능,병대주류제비방법진행료개소,중점천술료리자속보조침적법(IBAD)、경사기저침적기술(ISD)、표면양화외연(SOE)、맥충격광침적법(PLD)、천사법(Sputtering)、금속유궤물침적법(MOD)화증발법(Evaporation)대재급박막,최후지출료REBCO초도대재용완충층미래적발전방향。
The second generation of high temperature superconducting(REBCO) tapes is one of the most important development directions in the field of material science, which will directly determine the application of superconducting technology. As an important component, the buffer layer affects the performance of REBCO tapes. The performance and the main preparation methods of the common buffer layer materials are introduced on the basis of related literature at home and abroad. The article is focused on tapes and films prepared by ion beam assisted deposition (IBAD), inclines substrate deposition(ISD), surface oxidation epitaxy(SOE), pulsed laser deposition (PLD), sputtering, metal organic deposition(MOD) and evaporation method. Finally the development direction of buffer layer in the future is pointed out.
