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MA: Magnetismus
MA 10: Poster : Dünne Schichten(1-21),Spinabh.Transp.(22-39),Exch.Bias(40-51),Spindyn.(52-55),Mikromag.(56-66),Partikel(67-74),Abb.Verf.(75-77),Oberfl.+Spinelektr.+Elektr.Theo+Mikromag(75-87),PÜ+Aniso+Werkst/Leg.(88-103),Mol.Mag.+N-dim+Messm.+Postdead(104-111
MA 10.94: Poster
Dienstag, 12. März 2002, 15:00–19:00, Bereich A
Crystal structure and magnetic properties of NdFe12−x−yTixNby alloys — •J. Hesse3, K. G. Efthimiadis1, S. C. Chadjivasiliou1, A. K. Sianou1, I. A. Tsoukalas1, G. Litardakis2 und H. Bremers3 — 1Aristotle University, Department of Physics, GR 54006 Thessaloniki, Greece — 2Aristotle University, Department of Electrical and Computer Engineering, GR 54006 Thessaloniki, Greece — 3Institut für Metallphysik und Nukleare Festkörperphysik TU, 38106 Braunschweig, Mendelssohnstr. 3
A series of NdFe12−x−yTixNby (0.6≤ x+y ≤ 1.1) alloys was prepared by arc melting followed by annealing at temperatures 950∘C, 1050∘C and 1150∘C and water quenching. X-ray diffraction and magnetization measurements showed crystalline phases of ThMn12 (1:12), Th2Zn17 (2:17) and Nd3(Fe,Ti)29 (3:29) structure types, as well as bcc–Fe and Fe2(Ti,Nb) crystalline phases. The volume fraction of the intermetallic compounds rises with the increasing of the anneaeling temperature. The 1:12 structure type is formed in alloys with pNb=y/(x+y)≤ 0.3; as the Nb participation in the stabilizing agent increases (0.3 < pNb≤ 0.5), the 3:29 structure type is the dominant one, while for higher participations (pNb > 0.5) the 2:17 structure type is observed.