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Abstract
| The improved mechanical properties of the Ni-alloy reinforced Bi$_{2-x}$Pb$_{\mathrm{x}}$ Sr$_2$Ca$_2$Cu$_3$O$_{10- \mathrm{x}}$ (Bi-2223)-released on 2016 by the Sumitomo Electric Industries, Osaka, Japan, (HT-NX type)-renewed the interest on this material for high-field applications. Whether Bi-2223 can be preferred to other high-temperature superconductors for very-high-field magnets depends also on the solutions found to protect the coil in the case of quenches. A comprehensive study of the quench propagation requires information about the temperature and field dependence of the critical current (I$_{\mathrm{C}}$), the thermal conductivity (κ) of the conductor, and the electrical resistivity of the normal matrix ($\rho_{\mathrm{norm}}$). Most of these data are unavailable in the literature for the HT-NX tape. This paper intends to fill this gap, reporting the results of an extensive measurement campaign of its electrical and thermo-physical properties. We have found that I$_{\mathrm{C}}$ decreases linearly with T in the investigated range of fields 1-19 T. The well-known magnetic hysteresis of I$_{\mathrm{C}}$ (B) has been examined in detail. We have observed that the value of I C at a given field varies upon repeated I-V measurements, with a consequent reduction of the hysteresis amplitude. The longitudinal κ has been investigated in magnetic fields up to 19 T. $\rho_{\mathrm{norm}}$ has been measured between 4.2 K and 300 K and a residual resistivity ratio of 40 has been found. The experimental study of the I$_{\mathrm{C}}$ (T,B) surface, of the thermal conduction properties κ(T,B), and of the matrix electrical resistivity $\rho_{\mathrm{norm}}$ provides fundamental elements for a quench propagation study, which is critical in view of high-field applications of this conductor. |