U.P. Trociewitz scite author profile

Magnets are the principal market for superconductors, but making attractive conductors out of the high-temperature cuprate superconductors (HTSs) has proved difficult because of the presence of high-angle grain boundaries that are generally believed to lower the critical current density, J(c). To minimize such grain boundary obstacles, HTS conductors such as REBa2Cu3O(7-x) and (Bi, Pb)2Sr2Ca2Cu3O(10-x) are both made as tapes with a high aspect ratio and a large superconducting anisotropy. Here we report that Bi2Sr2CaCu2O(8-x) (Bi-2212) can be made in the much more desirable isotropic, round-wire, multifilament form that can be wound or cabled into arbitrary geometries and will be especially valuable for high-field NMR magnets beyond the present 1 GHz proton resonance limit of Nb3Sn technology. An appealing attribute of this Bi-2212 conductor is that, being without macroscopic texture, it contains many high-angle grain boundaries but nevertheless attains a very high J(c) of 2,500 A mm(-2) at 20 T and 4.2 K. The large potential of the conductor has been demonstrated by building a small coil that generated almost 2.6 T in a 31 T background field. This demonstration that grain boundary limits to high Jc can be practically overcome underlines the value of a renewed focus on grain boundary properties in non-ideal geometries.

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Tensile properties of in situ consolidated nanocrystalline Cu

Cheng

et al. 2005

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High Field Magnets With HTS Conductors

Weijers

Trociewitz

Markiewicz

et al. 2010

IEEE Trans. Appl. Supercond.

185

111

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Doubled critical current density in Bi-2212 round wires by reduction of the residual bubble density

Jiang¹,

Starch²,

Hannion³

et al. 2011

Supercond. Sci. Technol.

108

102

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We have recently shown that the gas present in the only ∼70% dense filaments of as-drawn Bi-2212 wire agglomerates into large bubbles that fill the entire filament diameter during the melt phase of the heat treatment. Once formed, these bubbles never disappear, although they can be bridged by 2212 grains formed on cooling. In order to test the effect of these bubbles on the critical current I c , we increased the density of the filaments after drawing using 2 GPa of cold isostatic pressure, finding that the bubble density and size were greatly reduced and that I c could be at least doubled. We conclude that enhancement of the filament packing density is of great importance for making major I c improvements in this very useful, round superconducting wire.

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U.P. Trociewitz

Isotropic round-wire multifilament cuprate superconductor for generation of magnetic fields above 30 T

Tensile properties of in situ consolidated nanocrystalline Cu

High Field Magnets With HTS Conductors

Doubled critical current density in Bi-2212 round wires by reduction of the residual bubble density

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