Fabrication of Y_2O_3 buffer layer on polished Ni substrates for YBCO superconducting tape

Fabrication of Y_2O_3 buffer layer on polished Ni substrates for YBCO superconducting tape

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摘要 Highly cube textured Ni tapes are produced by heavy cold rolling and recrystallization annealing. The textured nickel tapes have been proven to be suitable substrates for YBCO superconducting tape. Nevertheless, rolling damage and grain boundary grooves on Ni influence the epitaxial growth of highly textured buffer and YBCO layers. The polishing of the Ni substrate surface may play a crucial role in making it beneficial to epitaxial film deposition. In our work, several polishing methods were adopted on Ni to reduce the depth of rolling damage and grain boundary grooves. On the polished Ni substrates, textured Y2O3 buffer layers were deposited using RF sputtering. XRD results show that in-plane texture of Y2O3 films will minish with the decreasing of the Ni substrate surface roughness. AFM results show that average grain size of the Y2O3 film is biggest and surface is coarse in film on flatter Ni surface. Highly cube textured Ni tapes are produced by heavy cold rolling and recrystallization annealing. The textured nickel tapes have been proven to bc suitable substrates for YBCO superconducting tape. Nevertheless. rolling damage and grain boundary grooves on Ni influence the epitaxial growth of highly textured buffer and YBCO layers. The polishing of the Ni substrate surface may play a crucial rolc in making it beneficial to epitaxiat film deposition. In our work, several polishing methods were adopted on Ni to reduce the depth of rolling damage and grain boundary grooves. On the polished Ni substrates, textured Y2O3 buffer layers were deposited using RF sputtering. XRD results show that in-plane texture of Y2O3 films will minish with the decreasing of the Ni substrate surface roughness. AFM results show that average grain size of the Y2O3 film is biggest and surface is coarse in film on flatter Ni surface.

作者刘慧舟杨坚屈飞张华古宏伟

机构地区 General Research Institute for Nonferrous Metals

出处《广东有色金属学报》 2005年第2期483-487,共5页 Journal of Guangdong Non-Ferrous Metals

基金 ProjectsupportedbytheNationHighTechnonogyResearchandDevelopmentProgram(2002AA306211,2004AA306130)

关键词超导体缓冲器镍 Y2O3 退火处理 Ni substrates polishing buffer layer

分类号 TM26 [一般工业技术—材料科学与工程]

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广东有色金属学报

2005年第2期

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Fabrication of Y_2O_3 buffer layer on polished Ni substrates for YBCO superconducting tape

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