2010
DOI: 10.1088/0953-2048/23/12/124002
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The influence of post-growth thermal treatments on the critical current density of TSMG YBCO bulk superconductors

Abstract: Oxygenation and thermochemical post-growth treatments of top seeded melt-growth (TSMG) YBCO bulk superconductors can significantly influence critical current density. It is shown that, depending on oxygenation conditions and the size of 211 particles, different reductions of intrinsic critical current density values can be obtained due to the reduction in the sample cross-section caused by the presence of a/b-microcracks induced by 211 particles, and a/band a/c-cracks induced by oxygenation. The possibility of… Show more

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Cited by 18 publications
(4 citation statements)
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“…The observed macroscopic cracks are then simply the largest members of these fissure families, as shown in the figure where the two micro-fissure families appear close to a crack: it is easy to verify that all fissures are only directed either parallel or perpendicular to the crack. This well-defined pattern shown by the a-b plane cracks observed in the bulk of oxygenated orthorhombic TSG Nd123 samples, is completely different from the irregular structure characterizing the similarly oriented cracks reported in analogous Y123 samples [16,17,27]. These are apparently due to a high precipitate density, but the only analogous structures found in Nd123 samples are the irregular cracks that can be observed in the peripheral growth bands of samples obtained by high initial Nd210 content precursor powders [25], which are clearly due to a very high local density of 422 particles (figure 2(a)) as well.…”
Section: D1 Pellet Characterizationcontrasting
confidence: 64%
“…The observed macroscopic cracks are then simply the largest members of these fissure families, as shown in the figure where the two micro-fissure families appear close to a crack: it is easy to verify that all fissures are only directed either parallel or perpendicular to the crack. This well-defined pattern shown by the a-b plane cracks observed in the bulk of oxygenated orthorhombic TSG Nd123 samples, is completely different from the irregular structure characterizing the similarly oriented cracks reported in analogous Y123 samples [16,17,27]. These are apparently due to a high precipitate density, but the only analogous structures found in Nd123 samples are the irregular cracks that can be observed in the peripheral growth bands of samples obtained by high initial Nd210 content precursor powders [25], which are clearly due to a very high local density of 422 particles (figure 2(a)) as well.…”
Section: D1 Pellet Characterizationcontrasting
confidence: 64%
“…The formation of micro-and macro-cracks, mainly during oxygenation process, can significantly reduce the effective cross section of the bulks. The cracks can be partially eliminated by post-growth heat treatments [15][16][17], and the mechanical properties of the bulks can be improved by the addition of silver [18]. Subgrain boundaries are weak links in the bulks that reduce the current flow within the bulk.…”
Section: Introductionmentioning
confidence: 99%
“…This gives a J c (0.36 T) of 6.13 × 10 7 A/m 2 which is in close agreement with the inferred J c of 6.46 × 10 7 A/m 2 . A similar J c (B) behaviour has also been reported for GdBCO [150,151] and YBCO [152,153] bulks. Some discrepancies might be due to differences in the J c (B) behaviour between bulks and wires, the impact of surface degradation of the bulk on the trapped field characteristics, and the angle of the applied magnetic field with respect to the surface of the superconductor.…”
Section: A Non-destructive Methods For Estimating E-j Power Law Param...supporting
confidence: 83%