Abstract
Measurements on Nb3Sn multifilamentary conductors show that normally a degradation of the transition temperature Tc and of the critical current Ic occurs as a result of the compressive strain exerted by the bronze on the Nb3Sn layers when cooling down. When tensile stresses are applied, therefore, an increase of the Ic up to a maximum value is observed at first and then the Ic begins to decrease. These compressive strains are favourable factors when the conductor is subjected to tensile and bending loads. A coil reacted after winding produces a flux density of 12 T in a 7.5 T background field. The measured Ic values were 10% higher than in short samples. A coil wound with pre-reacted conductors produces a flux density of 13 T in an 8 T background field and, with an insert coil in the 55 mm bore of this magnet, 14.5 T has been measured. © 1977, IEEE. All rights reserved.
Cite
CITATION STYLE
Kuckuck, H., Pfister, H., Rupp, G., Wilhelm, M., Wohlleben, K., & Ziegler, G. (1977). Properties of multifilamentary NB3SN conductors. IEEE Transactions on Magnetics, 13(1), 792–795. https://doi.org/10.1109/TMAG.1977.1059375
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