The stability of YBa2Cu3O7−x in contact with silver

Lin, Sern-Hau; Wu, Nae‐Lih

doi:10.1557/jmr.1994.1112

Cited by 2 publications

(1 citation statement)

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“…The Ag addition to the Y211 pre-form is thus helpful to eliminate the pores by the pore filling process with an Ag melt. At the temperature where a melt forms, Ag particles included in the pre-forms would also convert to an Ag melt and form an Ag-base eutectic by a reaction with the liquid [21,22]. The EDS analysis which was carried out for the three Ag pools (S1, S2 and S3) of the LIG-processed sample using Y211-Ag pre- form sintered at 1200 • C to confirm the composition precisely (figure 6 and table 1) shows that the Ag fraction in the pools is higher than 98%.…”

Section: Resultsmentioning

confidence: 99%

Effective pore control and critical current density in liquid infiltration growth processed Y-123 superconductors with Ag addition

Mahmood

Jun

Han

et al. 2010

Supercond. Sci. Technol.

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The effect of a sintered density (open porosity) of Y 2 BaCuO 5 (Y211) pre-forms on the final porosity and Y211 size within YBa 2 Cu 3 O 7−y (Y-123) products was systematically studied in liquid infiltration growth (LIG) processed Y-123 bulk superconductors with Ag addition. To prepare Y211 pre-forms of various densities, Y211 powder compacts were sintered in air at various temperatures of 900-1200 • C. The single-grain Y-123 bulk superconductors were fabricated by the LIG process with top seeding. It was found that the porosity of the final Y-123 product was fairly dependent on the Y211 pre-form density. When a Y211 pellet of a high density was used as a pre-form for the LIG process, the porosity of the final Y-123 product was greatly reduced. In addition to the reduced porosity, the enhanced Y211 refinement was achieved for the Y-123 product prepared using the dense Y211 pre-form, resulting in the improved critical current density (J c ). The Ag addition was also helpful in eliminating the spherical pores through pore filling with a silver melt. The pore elimination and Y211 refinement mechanism in the LIG-processed Y-123 bulks were explained in terms of the liquid capillary movement and Ag melt and particle coarsening at the (Y211 + melt) state.

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Section: Resultsmentioning

confidence: 99%