OJMetal  Vol.3 No.2 , June 2013
Technological Basics for Production of Low-Temperature Superconductors
The technological principles of low-temperature superconductor production for the magnetic system of the International Thermonuclear Experimental Reactor (ITER) that provides continuity of a superconductor billet in the superconductor production are considered.

Cite this paper
G. Kolmogorov, V. Trofimov, T. Chernova, N. Kosheleva, Y. Burdina, M. Snigireva and N. Bolshakova, "Technological Basics for Production of Low-Temperature Superconductors," Open Journal of Metal, Vol. 3 No. 2, 2013, pp. 19-22. doi: 10.4236/ojmetal.2013.32003.
[1]   Chepetsky Mechanical Plant, “Superconductivity: The Experience of Organization of the High-Tech Production Capacities in JSC Chepetsky Mechanical Plant,” Nanotechnology, Environmental Science, No. 1, 2009, pp. 80-83.

[2]   A. K. Shikov, A. D. Nikulin and A. G. Silaev, “Development of Superconductors for ITER Magnet System in Russia,” Izvestia Vyssih Ucebnyh Zavedenij. Cvetnaa Metallurgia, No. 1, 2003, pp. 36-43.

[3]   R. Christensen, “Introduction into the Composite Mechanics,” MirPress, Moscow, 1982, 334 p.

[4]   G. L. Kolmogorov, “Hydrodynamic Lubrication in Metal Forming,” Metallurgy, Moscow, 1986, 168 p.

[5]   S. P. Timoshenko and J. Gud’er, “Elasticity Theory,” Nau-ka Publisher, Moscow, 1975, 576 p.

[6]   G. L. Kolmogorov, V. N. Trofimov, M. G. Shtuca and T. V. Chernova, “Mechanics of Transversely-Isotropic Plastic Deformation of Composite Superconductor,” Perm National Research Polytechnic University, Perm, 2011.