Title :
Comparison of Al5-Nb3Al superconductors produced by laser alloying and infiltration
Author :
Schaper, W. ; Kehlenbeck, M. ; Zimmermann, I. ; Freyhardt, H.C.
Author_Institution :
Inst. fuer Metallphys., Gottingen Univ., West Germany
fDate :
3/1/1989 12:00:00 AM
Abstract :
Nb3(Al, Si, Bi) and Nb3Al superconductors were successfully prepared by a laser alloying and an infiltration process. Continuous CO2 laser irradiation of Nb-sheathed Nb-25-at.% Al composite tapes prepared by a conventional powder metallurgical method was carried out. For a laser power of less than 3.5 kW and specimen velocities up to 30 m/min, almost stoichiometric Nb3Al with critical temperatures of 16.6 K and critical current densities of 104 A/cm2 at 15 T was obtained. For infiltration, sintered Nb powder was immersed in a liquid (Al88.7Si11.3)99Bi1 alloy. Subsequently the infiltrated rod was deformed and reacted at temperatures up to 2000°C. The microstructure and the superconducting properties have been studied as a function of the degree of deformation and the reaction temperature. Critical temperatures between 14 and 18 K, upper critical fields Bc2 of 21 T and critical current densities of 104 A/cm2 at 16 T were obtained
Keywords :
aluminium alloys; critical current density (superconductivity); crystal microstructure; laser beam effects; materials preparation; niobium alloys; superconducting critical field; superconducting transition temperature; type II superconductors; 14 to 18 K; 16.6 K; Al5-Nb3Al superconductors; CO2 laser irradiation; Nb3(AlSiBi)1; Nb3Al; composite tapes; critical current densities; critical temperatures; deformation; infiltration; laser alloying; laser power; microstructure; reaction temperature; specimen velocities; superconducting properties; upper critical fields; Alloying; Aluminum alloys; Bismuth; Critical current density; Niobium alloys; Powders; Power lasers; Silicon alloys; Superconductivity; Temperature;
Journal_Title :
Magnetics, IEEE Transactions on
