In 1962, at Atomics International, T.G. Berlincourt and R.R.Hake. discovered the superior high-critical-magnetic-field, high-critical-supercurrent-density properties of Nb-Ti that, together with affordability and easy workability, distinguish Nb-Ti alloys from thousands of other superconductors and justify their status as the most-widely-utilized (workhorse) superconductors.
With a maximum critical magnetic field of about 15 tesla, Nb-Ti alloys are suitable for fabricating supermagnets generating magnetic fields up to about 10 tesla. For higher magnetic fields, higher-performance, but more-expensive and less-easily fabricated superconductors, such as niobium-tin, are commonly employed.
The part of global economic activity, for which superconductivity is indispensable, amounted to about five billion euros in 2014.  MRI systems, most of which employ niobium-titanium, accounted for about 80% of that total.
Notable uses 1
- Superconducting magnets 1.1
- See also 2
- References 3
About 1000 NbTi SC magnets were used in the 4 mile long main ring of the Tevatron accelerator at Fermilab. The magnets were wound with 50 tons of copper cables containing 17 tons of NbTi filaments. They operate at 4.5 K generating fields up to 4.5 tesla.
1999: The Relativistic Heavy Ion Collider uses 1,740 NbTi SC 3.45 tesla magnets to bend beams in its 3.8 km double storage ring.
Niobium-titanium superconducting magnet coils (liquid helium cooled) were built to be used in the Alpha Magnetic Spectrometer mission to be flown on the international space station. They were later replaced by non-superconducting magnets.
- Flükiger, R.; Hariharan, S. Y.; Küntzler, R.; Luo, H. L.; Weiss, F.; Wolf, T.; Xu, J.Q. (1994). Flükiger, R.; Klose, W., eds. Nb-Ti. 21b2: Nb-H - Nb-Zr, Nd - Np (The Landolt-Börnstein Database ed.). SpringerMaterials. .
- T.G. Berlincourt and R.R. Hake, “Pulsed-Magnetic-Field Studies of Superconducting Transition Metal Alloys at High and Low Current Densities,” Bull. Am. Phys. Soc. II 7 408 (1962) and T.G. Berlincourt, “Emergence of Nb-Ti as Supermagnet Material,” Cryogenics 27, 283 (1987)
- http://lss.fnal.gov/archive/test-tm/0000/fermilab-tm-0763.pdf The Tevatron 1978
"Milestones in the History of the ITER Project". iter.org. 2011. Retrieved 31 March 2011.
The test coil achieves stable operation at 52 kA and 6.4 Tesla