Title :
Iseult/INUMAC 11.7 T Conductor Production Status
Author :
Berriaud, C. ; Bermond, S. ; Dechambre, T. ; Gheller, J.M. ; Juster, F.P. ; Nunio, F. ; Payn, A. ; Schild, T. ; Vedrine, P. ; Gilgrass, G. ; Kanithi, H.
Author_Institution :
CEA/DSM/IRFU/SACM, Gif-sur-Yvette, France
fDate :
6/1/2012 12:00:00 AM
Abstract :
The Iseult/INUMAC 11.7 T MRI magnet uses NbTi conductors larger than those typically used in conventional MRI magnets. The principal conductors are the main coil one, producing the magnetic field of 11.7 T and the conductor of the shielding coil that limits the fringe field. Both conductors are being produced by Luvata Waterbury Inc. The main coil conductor is a Rutherford cable in a copper channel (160 km) and carries 1500 A at 12 T and 2.8 K (2727 A at 9.5 T and 4.2 K). The shielding coil conductor is a wire in channel (60 km) and carries 2100 A at 5 T and 4.2 K. The conductor shape must be very precise with reproducible dimensions (tolerances below 15 microns) to enable good magnetic field homogeneity. They must also simultaneously exhibit a low electrical resistance (20 μΩ/m at 10 K and 12 T) and a high mechanical strength (σ0.2%>;250 MPa). Conductors of this industrial production are characterized by mechanical, electrical and geometrical measurements.
Keywords :
magnetic resonance imaging; niobium compounds; superconducting magnets; Iseult/INUMAC conductor production status; Luvata Waterbury Inc; MRI magnet; NbTi; NbTi conductors; Rutherford cable; copper channel; current 1500 A; current 2100 A; current 2727 A; distance 160 km; distance 60 km; magnetic flux density 11.7 T; magnetic flux density 12 T; magnetic flux density 5 T; magnetic flux density 9.5 T; shielding coil conductor; Conductors; Copper; Current measurement; Integrated circuits; Magnetic resonance imaging; Production; Temperature measurement; Conductor type; MRI magnet superconductor; critical current; large conductor;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2011.2180289
