U Floegel Delor scite author profile

The ability to produce large-grain REBCO (RE=Y, Rare Earth) bulk superconductors by melt texturing growth has been improved and refined significantly over the last 20 years. Magnetic bearings, transportation systems, and scientific instrumentation are becoming major innovations of HTS bulk materials. Large grain production is dominated by cold top-seeding melt growth (TSMG). For material optimizing we demonstrate strictly application-oriented fabrication close to the final geometry and thus reducing mechanical machining and assembling work. YBCO hollow cylinder design for journal bearings with radial c axes orientation are obtained by radial-seeding geometry (RSMG). YBCO ring tiles up 120 mm show a perfect cylinder geometry with in-wall a, b orientation and radial c axes. We report improved electric and mechanical bulk properties and demonstrate great production effectiveness. For achieving high field permanent magnets up to 10 T we compare YBCO bulk and ring geometry. Top/bottom double seeded melt growth (DSMG) grain samples provide better magnetic flux trapping capability and show more homogenous properties.

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Bulk Superconductors in Mobile Application

Werfel

Delor

Rothfeld

et al. 2012

Physics Procedia

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HTS Flywheel from R&D to Pilot Energy Storage System

Werfel

Delor

Riedel

et al. 2010

J. Phys.: Conf. Ser.

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Copper – HTS hybrid conductor architecture

Delor¹,

Riedel²,

Wippich³

et al. 2010

J. Phys.: Conf. Ser.

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U Floegel Delor

250 kW flywheel with HTS magnetic bearing for industrial use

Strictly application-oriented REBCO bulk fabrication

Bulk Superconductors in Mobile Application

HTS Flywheel from R&D to Pilot Energy Storage System

Copper – HTS hybrid conductor architecture

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