Map

 

Existing collaboration Institutes 

Institution/Link

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Activities  

BAF

 

RD1 - Nb3Sn Conductors:
BAF has completed a re-evaluation of the Cu-Nb-Sn ternary phase diagram.
The current activities assess the effect of Hf and Ta on phase equilibria, both with and without an oxygen source, by electron microscopy, thermal analysis and other techniques

Bruker EAS

 

RD1 - Nb3Sn Conductors:
Develop, produce and characterise Nb3Sn wire towards the Jc, RRR and deff development targets for FCC 16 T dipoles

UNIGE

 

RD1 - Nb3Sn Conductors; RD2 – HTS Conductors and Magnet Technologies:
Establish a body of knowledge on the multiphysical properties
of advanced superconductors

Develop recipes and methods for the fabrication of Nb3Sn  multifilamentary wires with  enhanced current carrying capabilities (UNIGE)

KIT

 

RD2 – HTS Conductors and Magnet Technologies:
Development of tailored HTS-wires for magnet and energy applications
Commissioning of ReBCO CC deposition equipment

U-TWENTE

 twente

RD2 – HTS Conductors and Magnet Technologies:
Development of a test rig for a systematic study of bonding and delamination issues in ReBCO Roebel cables samples including a first demonstration test at 77 K

CNR-SPIN RD2 – HTS Conductors and Magnet Technologies:
Development of iron-based superconducting wire for the high-field magnet (HFM) R&D programme

INFN – Milan- LASA

 

RD3 - Nb3Sn Magnets:
The design and manufacture of a 16 T dipole model.
Three generations of FalconD end spacers were developed

CEA

 

RD2 -  HTS :
Preliminary research and development relating to the conception of MI racetrack coil fabrication.

RD3 - Nb3Sn Magnets
Collaborate and establish technical steps towards the building of a 16T F2D2 dipole magnet.

CIEMAT/CDTI

 

RD3 - Nb3Sn Magnets:
Conceptual design of the Spanish HFM dipole magnet with a common  coil, featuring simplified mechanics and production in the new CIEMAT magnet laboratory 

PSI

 

RD3 - Nb3Sn Magnets:
CHART MagDev @ PSI explores stress-management concepts to reduce the stress on Nb3Sn conductor.

ETHZ

 

RD5 - Infrastructure and Measurement Techniques:
Initial characterization of state-of-the-art systems, followed by research on improved fracture toughness at cryogenic temperatures.