Title :
Transverse Thermal Conductivity of REBCO Coated Conductors
Author :
Bonura, M. ; Senatore, C.
Author_Institution :
Dept. of Appl. Phys., Univ. of Geneva, Geneva, Switzerland
Abstract :
REBCO coated conductors (CCs) have the potential to widen considerably the application areas of superconductivity. Quench protection of REBCO-based devices represents one of the major obstacles to this expansion. Thermal conductivity data are mandatory ingredients for quench simulation studies. In particular, the transverse thermal conductivity (κT) of the CC plays a key role in case of quenches in superconducting magnets. In the present work, we report κT of thermally stabilized REBCO CCs produced by different manufacturers. We have measured κT on single CCs rather than on stacks of soldered tapes, this excludes spurious contributions in the measurements. We have found that the presence of the stabilizer at the tape edges in Cu-electroplated CCs increases the overall κT. In the absence of this effect, the overall thermal resistance is dominated by the substrate.
Keywords :
barium compounds; electroplated coatings; electroplating; high-temperature superconductors; rare earth compounds; superconducting magnets; superconducting tapes; thermal conductivity; thermal resistance; thermal stability; Cu-electroplated CCs; REBCO coated conductors; REBCO-based devices; mandatory ingredients; quench protection; quench simulation; soldered tape stacks; stabilizer; superconducting magnets; tape edges; thermal resistance; thermally stabilized REBCO CCs; transverse thermal conductivity; Conductivity; Conductors; Substrates; Superconducting magnets; Thermal conductivity; Thermal resistance; Thermal stability; Coated conductors (CCs); Thermal conductivity; coated conductors; magnet technology; thermal conductivity; thermal stability;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2014.2367163
