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Second Generation HTs Wire Based on RABiTS Substrates and MOD YBCO

Journal Article · · IEEE Transactions on Applied Superconductivity
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  1. American Superconductor Corporation, Westborough, MA
  2. Los Alamos National Laboratory (LANL)
  3. ORNL
+ Show Author Affiliations

The performance of Second Generation (2G) high temperature superconducting wire manufactured by continuous reel-to-reel processes is nearing the 300 A/cm-width (77 K, self field) performance threshold for commercial power cable applications. The 2G manufacturing approach under development at American Superconductor is based on the combination of the RABiTS substrate-buffer technology with metal organic deposition (MOD) of the YBCO layer. The capability of this process has been demonstrated in multiple 10 meter lengths with critical currents exceeding 250 A/cm-width with high uniformity and reproducibility. Critical currents of 380 A/cm-width have been achieved in short length samples prepared by the same basic process. The incorporation of nanoparticles ('nanodots') into the YBCO layer using the MOD process has resulted in a 2-fold improvement in the critical current at 65 K in a 3 T field. The research and development focus at ASMC is now directed toward the economical scale-up of the RABiTS/MOD process, optimization of the conductor properties for targeted applications and the use of 2G wire in initial demonstration applications.

Research Organization:
Oak Ridge National Laboratory (ORNL)
Sponsoring Organization:
OE USDOE - Office of Electric Transmission and Distribution
DOE Contract Number:
AC05-00OR22725
OSTI ID:
1003198
Journal Information:
IEEE Transactions on Applied Superconductivity, Journal Name: IEEE Transactions on Applied Superconductivity Journal Issue: 2 Vol. 15; ISSN 1051-8223
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
BARIUM OXIDES
BUFFERS
COPPER OXIDES
CRITICAL CURRENT
DEPOSITION
INCLUSIONS
PERFORMANCE
QUANTUM DOTS
SUBSTRATES
SUPERCONDUCTING WIRES
SUPERCONDUCTORS
YTTRIUM OXIDES