On the study of the liquid infiltration and seeded growth process

H. Fang; Y. X. Zhou; K. Ravi-Chandar; K. Salama

doi:10.1088/0953-2048/17/2/006

On the study of the liquid infiltration and seeded growth process

H. Fang, Y. X. Zhou, K. Ravi-Chandar, K. Salama

Diagnostic Radiology

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21 Scopus citations

Abstract

The infiltration driving force and the growth mechanism of the liquid infiltration and seeded growth process on YBa₂Cu₃O_7-x were studied. The main driving force for the liquid infiltration is either the capillary force or the chemical potential, while gravity does not play a significant role and may be neglected. The particle size and distribution of the Y-211 inclusions of the final Y-123 specimen prepared by the liquid infiltration and seeded growth process are solely determined by the particle size and distribution of the Y-211 preform. The critical current density at 77 K was determined to be 80000 A cm^-2 under self-field and 35000 A cm^-2 under 1.5 T. The superconducting properties are highly enhanced using this method compared to the conventional melt texture growth process.

Original language	English (US)
Pages (from-to)	269-273
Number of pages	5
Journal	Superconductor Science and Technology
Volume	17
Issue number	2
DOIs	https://doi.org/10.1088/0953-2048/17/2/006
State	Published - Feb 2004

ASJC Scopus subject areas

Ceramics and Composites
Condensed Matter Physics
Metals and Alloys
Electrical and Electronic Engineering
Materials Chemistry

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10.1088/0953-2048/17/2/006

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abstract = "The infiltration driving force and the growth mechanism of the liquid infiltration and seeded growth process on YBa2Cu3O7-x were studied. The main driving force for the liquid infiltration is either the capillary force or the chemical potential, while gravity does not play a significant role and may be neglected. The particle size and distribution of the Y-211 inclusions of the final Y-123 specimen prepared by the liquid infiltration and seeded growth process are solely determined by the particle size and distribution of the Y-211 preform. The critical current density at 77 K was determined to be 80000 A cm-2 under self-field and 35000 A cm-2 under 1.5 T. The superconducting properties are highly enhanced using this method compared to the conventional melt texture growth process.",

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AU - Fang, H.

AU - Zhou, Y. X.

AU - Ravi-Chandar, K.

AU - Salama, K.

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N2 - The infiltration driving force and the growth mechanism of the liquid infiltration and seeded growth process on YBa2Cu3O7-x were studied. The main driving force for the liquid infiltration is either the capillary force or the chemical potential, while gravity does not play a significant role and may be neglected. The particle size and distribution of the Y-211 inclusions of the final Y-123 specimen prepared by the liquid infiltration and seeded growth process are solely determined by the particle size and distribution of the Y-211 preform. The critical current density at 77 K was determined to be 80000 A cm-2 under self-field and 35000 A cm-2 under 1.5 T. The superconducting properties are highly enhanced using this method compared to the conventional melt texture growth process.

AB - The infiltration driving force and the growth mechanism of the liquid infiltration and seeded growth process on YBa2Cu3O7-x were studied. The main driving force for the liquid infiltration is either the capillary force or the chemical potential, while gravity does not play a significant role and may be neglected. The particle size and distribution of the Y-211 inclusions of the final Y-123 specimen prepared by the liquid infiltration and seeded growth process are solely determined by the particle size and distribution of the Y-211 preform. The critical current density at 77 K was determined to be 80000 A cm-2 under self-field and 35000 A cm-2 under 1.5 T. The superconducting properties are highly enhanced using this method compared to the conventional melt texture growth process.

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On the study of the liquid infiltration and seeded growth process

Abstract

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