Conveners
M2OrD - HTS and LTS Cables II
- Sastry Pamidi (CAPS / FSU)
- Herman Ten Kate (CERN)
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Dr Alexander Molodyk (SuperOx)11/07/2017, 11:00Contributed Oral Presentation
This talk will review the status of 2G HTS wire production and integration at SuperOx, with an emphasis on the recent facility expansion at the Moscow location.
As of January 2017, full production cycle of 2G HTS wire has been established at SuperOx in Moscow. This includes the commissioning of a new buffer deposition line in January 2016 and of a new PLD-HTS deposition system in December...
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Dr Anna Kario (Karlsruhe Institute of Technology, Institute for Technical Physics)11/07/2017, 11:15Invited Oral Presentation
REBCO coated conductors are produced nowadays in lengths long enough for first demonstrative applications. Due to that also several HTS cable concepts are being developed, as Roebel Assembled Coated Conductor (RACC) cable, Coated Conductor on Round Core (CORC) cable and diverse stack cable concepts.
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Approaching demonstrative applications, middle lengths of the RACC cable need to be assembled... -
Tim Mulder (CERN / Twente Technical University (NL))11/07/2017, 11:45Contributed Oral Presentation
Two new ReBCO-CORC based Cable-In-Conduit Conductors are developed by CERN in collaboration with ACT-Boulder. Both conductors feature a critical current of about 80 kA at 4.5 K and 12 T. The first conductor is designed for operation in large detector magnets, while the second is aimed for application in fusion type magnets. The conductors are using the six-around-one cable geometry with six...
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Dr Alexander Otto (Solid Material Solutions, LLC)11/07/2017, 12:00Contributed Oral Presentation
A Bi2212-based rectangular wire approach has been developed, with up to 400 MPa stress tolerances and useful current densities for building transposed cables that are problematic with wide HTS tapes, and that need to operate beyond the field and temperature limits of low temperature superconductors. We are applying this recently established Bi2212-wire capability to develop robust, transposed,...
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Danko van der Laan (Advanced Conductor Technologies)11/07/2017, 12:15Contributed Oral Presentation
Advanced Conductor Technologies is developing high-temperature superconducting Conductor on Round Core (CORC®) magnet wires, wound from REBCO tapes with 30 μm thick substrates, for use the accelerator magnets. Round, isotropic CORC® wires of 3-4 mm thickness could offer operating currents in excess of 10,000 A and engineering current densities Je of over 600 A/mm2 at 4.2 K and 20 T, while...
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