Stability and Magnetocaloric Properties of Sintered La(Fe, Mn, Si) $_{13}$ H $_{z}$ Alloys

Author

Barcza, A. ; Katter, M. ; Zellmann, V. ; Russek, S. ; Jacobs, Steven ; Zimm, C.

Author_Institution

Vacuumschmelze GmbH & Co. KG, Hanau, Germany

Volume

47

Issue

10

fYear

2011

Firstpage

3391

Lastpage

3394

Abstract

Long-term aging treatments of partially hydrogenated ternary La-Fe-Si alloys show that these materials do not have stable magnetic properties. If partially hydrogenated LaFe_{13- x}Si_xH_z is held at its Curie temperature for several days it decomposes into a fraction with an increased Curie temperature and another one with decreased Curie temperature compared to the starting material. Such degrading material cannot be used in applications which require constant properties over a long period of time. By fully hydrogenating manganese containing LaFe_13-x-yMn_ySi_xH_z, stable alloys with adjustable Curie temperatures around room temperature can be produced. These hydrides do not change their magnetic properties if they are operated close to their Curie temperature.

Keywords

Curie temperature; ageing; iron alloys; lanthanum alloys; magnetocaloric effects; manganese alloys; silicon alloys; sintering; Curie temperature; LaFe_13-x-yMn_ySi_xH_z; hydrogenated ternary alloys; hydrogenating manganese; long-term aging treatments; magnetocaloric property; sintered alloys; temperature 293 K to 298 K; Manganese; Saturation magnetization; Silicon; Temperature; Temperature measurement; Hydrogenation; magnetic refrigeration; magnetocaloric effect; powder metallurgy;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2011.2147774

Filename

6027609

Stability and Magnetocaloric Properties of Sintered La(Fe, Mn, Si) H Alloys

Barcza, A. ; Katter, M. ; Zellmann, V. ; Russek, S. ; Jacobs, Steven ; Zimm, C.

jour

Stability and Magnetocaloric Properties of Sintered La(Fe, Mn, Si) $_{13}$ H $_{z}$ Alloys