Title :
Non-equilibrium gas-phase nitrogenation
Author :
Brennan, S. ; Skomski, R. ; Coey, J.M.D.
Author_Institution :
Dept. of Pure & Appl. Phys., Trinity Coll., Dublin, Ireland
fDate :
3/1/1994 12:00:00 AM
Abstract :
Non-equilibrium nitrogenation of transition-metal rich rare-earth intermetallics can be used to increase the nitrogen content beyond its equilibrium concentration. For example, nitrogenation of Sm2Fe17 using ammonia yields volume expansions up to 8.3 vol.%, which correspond to a composition Sm2Fe17 Nx with x≈4. This effect is related to catalytic action at the metal surface where ammonia is decomposed into nitrogen and hydrogen, with nitrogen absorption on a site where it is weakly-bound, as an intermediate step. For overloaded Sm2Fe 17Nx with x>3 the net reaction energy U0 =5±10 kJ/mole indicates a nearly temperature-independent occupation of the non-9e sites
Keywords :
ferromagnetic properties of substances; iron alloys; nitridation; samarium alloys; Sm2Fe17; Sm2Fe17N; Sm2Fe17Nx; catalytic action; metal surface; net reaction energ; nonequilibrium gas-phase nitrogenation; temperature-independent occupation; transition-metal rich rare-earth intermetallics; Absorption; Educational institutions; Hydrogen; Intermetallic; Magnetic properties; Neutrons; Nitrogen; Physics; Temperature; Thermodynamics;
Journal_Title :
Magnetics, IEEE Transactions on
