Ключевые слова: LTS, Nb3Sn, strands, cable-in-conduit conductor, cycling, loads, microstructure, crack formation, density, test results
Ключевые слова: Tokamak, central coils, coils solenoidal, coils model, insulating medium, fabrication, measurement technique, composites, ultrasonic methods, test results
Ключевые слова: measurement setup, magnets, dc performance, LTS, Nb3Sn, cable-in-conduit conductor, design, design parameters, magnetic field distribution, facility
Ключевые слова: LTS, Nb3Sn, strands, fabrication, RRP process, comparison, heat treatment, defects, critical current, ac losses, experimental results
Bruzzone P., Stepanov B., Zhang Y., Shi Y., Nijhuis A., Liu S., Long F., Qin J., Guo Z., Dai C., Xiang B., YuWu, Li. J., Derevd A.
Zhang Y., Zhu Y., Wang J., Wang X., Wang X., Shi Y., Wu K., Wang Q., Xu A., Wu Y., Liu J., Dai C., Zou H., Cai F., Chang W.
Ключевые слова: MRI magnets, coils, Rutherford cables, LTS, Nb3Sn, mechanical properties, strain effects, stress effects, cooling technology, deformation, modeling, numerical analysis
Ключевые слова: LTS, Nb3Sn, strands, Rutherford cables, winding techniques, twist-pitch, displacements, modeling, numerical analysis
Zhang Y., Zhang Y., Zhu Y., Wang J., Wang X., Wang X., Shi Y., Wu K., Tang Z., Wang Q., Xu A., Wu Y., Liu J., Dai C., Cai F., Chang W., Jin J.2
Ключевые слова: MRI magnets, LTS, Nb3Sn, Rutherford cables, mechanical properties, modeling, loads, strain effects, stress effects, numerical analysis
Ключевые слова: LTS, Nb3Sn, cable-in-conduit conductor, fusion magnets, heat loads, friction, cooling technology, design, test results, loop, facility
Ключевые слова: MRI magnets, design, shielding effects, modeling computational, LTS, Nb3Sn, Rutherford cables, magnetic field distribution, numerical analysis
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