MOD Buffer/YBCO Approach to Fabricate Low-Cost Second Generation HTS Wires

Paranthaman, Mariappan Parans; Sathyamurthy, Srivatsan; Bhuiyan, Md S; Martin, Patrick M; Aytug, Tolga; Kim, Kyunghoon; Fayek, Mostafa; Leonard, Keith J; Li, Jing; Zhang, W.; Rupich, Marty

doi:10.1109/TASC.2007.899636

Title: MOD Buffer/YBCO Approach to Fabricate Low-Cost Second Generation HTS Wires

Journal Article · Mon Jan 01 00:00:00 EST 2007 · IEEE Transactions on Applied Superconductivity

DOI:https://doi.org/10.1109/TASC.2007.899636· OSTI ID:959427

Paranthaman, Mariappan Parans ^[1]; Sathyamurthy, Srivatsan ^[1]; Bhuiyan, Md S ^[1]; Martin, Patrick M ^[1]; Aytug, Tolga ^[1]; Kim, Kyunghoon ^[1]; Fayek, Mostafa ^[1]; Leonard, Keith J ^[1]; Li, Jing ^[1]; Zhang, W. ^[2]; Rupich, Marty ^[2]

ORNL
American Superconductor Corporation, Westborough, MA

The metal organic deposition (MOD) of buffer layers on RABiTS substrates is considered a potential, low-cost approach to manufacturing high performance Second Generation (2G) high temperature superconducting (HTS) wires. The typical architecture used by American Superconductor in their 2G HTS wire consists of a Ni-W (5 at.%) substrate with a reactively sputtered Y2O3 seed layer, YSZ barrier layer and a CeO2 cap layer. This architecture supports critical currents of over 300 A/cm-width (77 K, self-field) with 0.8 mum YBCO films deposited by the TFA-MOD process. The main challenge in the development of the MOD buffers is to match or exceed the performance of the standard vacuum deposited buffer architecture. We have recently shown that the texture and properties of MOD - La2Zr2Ogamma (LZO) barrier layers can be improved by inserting a thin sputtered Y2O3 seed layer and prepared MOD deposited LZO layers followed by MOD or RF sputtered CeO2 cap layers that support MOD-YBCO films with Ic's of 200 and 255 A/cm-width, respectively. Detailed X-ray and microstructural characterizations indicated that MOD - CeO2 cap reacted completely with MOD YBCO to form BaCeOs. However, sputtered CeO2 cap/MOD YBCO interface remains clean. By further optimizing the coating conditions and reducing the heat-treatment temperatures, we have demonstrated an Ic of 336 A/cm with improved LZO layers and sputtered CeO2 cap and exceeded the performance of that of standard vacuum deposited buffers.

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Research Organization:: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)

Sponsoring Organization:: OE USDOE - Office of Electric Transmission and Distribution

DOE Contract Number:: DE-AC05-00OR22725

OSTI ID:: 959427

Journal Information:: IEEE Transactions on Applied Superconductivity, Vol. 17, Issue 2

Country of Publication:: United States

Language:: English

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Related Subjects

36 MATERIALS SCIENCE
ARCHITECTURE
BUFFERS
COATINGS
CRITICAL CURRENT
DEPOSITION
MANUFACTURING
PERFORMANCE
SEEDS
SUBSTRATES
SUPERCONDUCTORS
TEXTURE
WIRES

Title: MOD Buffer/YBCO Approach to Fabricate Low-Cost Second Generation HTS Wires

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