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Filament to filament bridging and its influence on developing high critical current density in multifilamentary Bi
2
Sr
2
CaCu
2
O
x
round wires
T. Shen
, J. Jiang
, F. Kametani
, U. P. Trociewitz
, D. C. Larbalestier
, Justin Schwartz
, E. E. Hellstrom
College of Engineering
The Pennsylvania State University
Research output
:
Contribution to journal
›
Article
›
peer-review
90
Scopus citations
Overview
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Dive into the research topics of 'Filament to filament bridging and its influence on developing high critical current density in multifilamentary Bi
2
Sr
2
CaCu
2
O
x
round wires'. Together they form a unique fingerprint.
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Keyphrases
High Critical Current Density
100%
Round Wire
100%
Multifilamentary
100%
Microstructure
50%
High Jc
50%
Slow Cooling
25%
Melt State
25%
Critical Current Density
25%
High-angle Grain Boundary
25%
Single Grain
25%
Partial Melt
25%
Flux pinning
25%
Call Type
25%
Current Flow
25%
Melt Process
25%
Engineering
Bridging
100%
Outgrowth
100%
High-Angle Grain Boundary
50%
Intersects
50%
Slow Cooling
50%
Current Flow
50%
Single Grain
50%
Melt Process
50%
Chemistry
Filament
100%
Current Density
100%
melt
25%
Grain Boundary
8%
Material Science
Density
100%
Flux Pinning
50%
Grain Boundary
50%
Physics
Critical Current
100%
Grain Boundary
50%
Flux Pinning
50%