Introducing Nanosized Pinning Centers Into Bulk Gd–Ba–Cu–O by Infiltration Method
Applied Superconductivity, IEEE Transactions (2015)
Abstract
Chemical doping is considered as an economic and effective method to enhance the flux pinning properties of high-temperature superconducting materials. However, it is difficult to realize a large doping amount in textured grown bulk superconductors since the doped particles are prone to accumulate and affect the melt-textured growth of the bulk superconductors. In the present work, we introduced nanosized ZrO2 particles into the Gd-Ba-Cu-O samples through the external liquid source by infiltration method. A large doping amount of ZrO2 particles up to 20 mol% has been realized in finely grown Gd-Ba-Cu- O samples. Improvement in the trapped field has been found for low-level doped samples. The localized microstructure and distribution of the doped particles have been observed by scanning electron microscopy and discussed in this paper.
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Key words
barium compounds,crystal microstructure,doping,flux pinning,gadolinium compounds,high-temperature superconductors,impurity distribution,melt infiltration,nanoparticles,scanning electron microscopy,zirconium compounds,gdbacuo:zro2,sem,bulk gd-ba-cu-o,chemical doping,doped particle distribution,external liquid source,flux pinning properties,high-temperature superconducting materials,infiltration method,localized microstructure,melt-textured growth,nanosized pinning centers,nanosized zirconia particles,textured grown bulk superconductors,trapped field,high-temperature superconductors (hts),trapped field magnet (tfm),microstructure,high temperature superconductors,art,superconducting magnets
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