Title :
Derivation of Ic degradation rate for Nb3Sn coils through the react & wind technique
Author :
Kubo, Y. ; Yokoyama, S. ; Ozawa, T. ; Komatsu, S. ; Hiramoto, K.
Author_Institution :
Adv. Technol. R&D Center, Mistubishi Electr. Co., Sagamihara, Japan
fDate :
6/1/2004 12:00:00 AM
Abstract :
To estimate critical current, Ic, degradation when bending and tensile strains are applied to Nb3Sn wires through the react & wind (R&W) process, we theoretically analyzed the degradation by considering the shift of the neutral axis when the wire was bent, taking the plastic deformation of the composite materials into account. The results were as follows. The neutral axis shifts 72 μm; from the center of the wire toward the inside. The strain range of the Nb3Sn filaments is from 0.40% to -0.06% when the wire is wound into a coil. The strain of the filaments increases 0.14% when the coil is cooled to 4.2 K. The additional Hoop´s strain of 0.033% is applied to the wire for passing current to the coil. The Ic degradation rate based on the Ic-strain characteristics of the wire was estimated to be 8.5%. We also succeeded in generating a maximum field of 9.2 T for a commercial scale coil manufactured by the R&W process.
Keywords :
bending; critical current density (superconductivity); niobium alloys; stress analysis; stress effects; superconducting coils; tin alloys; type II superconductors; winding (process); 4.2 K; Ic degradation rate; Ic-strain characteristics; Nb3Sn; Nb3Sn coils; Nb3Sn filaments; Nb3Sn wires; R&W process; bending strain application; commercial scale coil; cooling; critical current degradation; neutral axis shifting; plastic deformation; react & wind process; strain range; stress analysis; tensile strain application; wire bending; wire winding; Capacitive sensors; Coils; Composite materials; Critical current; Degradation; Niobium; Plastics; Tensile strain; Tin; Wire; $I_c$-strain characteristics; $rm Nb_; neutral axis shifting; rm Sn$ wires; stress analysis;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2004.830364
