Effect of Co and Mn Doping on the Martensitic Transformations and Magnetic Properties of Fe-Pd Ferromagnetic Shape Memory Alloys

Vicente Sánchez-Alarcos; José Ignacio Pérez-Landazábal; Vicente Recarte

doi:10.4028/www.scientific.net/MSF.635.103

Paper Titles

Study of Co-Ni-Al Alloys with Magnetically Controlled Shape Memory Effect
p.75

Annealing Effect on Martensitic Transformation and Magneto-Structural Properties of Ni-Mn-In Melt Spun Ribbons
p.81

Influence of Magnetic Field on Magnetostructural Transition in Ni_46.4Mn_32.8Sn_20.8 Heusler Alloy
p.89

Magnetic and Martensitic Transitions in Ni₂Mn_1+xSn_1-x Alloys
p.97

Effect of Co and Mn Doping on the Martensitic Transformations and Magnetic Properties of Fe-Pd Ferromagnetic Shape Memory Alloys
p.103

Structural, Magnetic and Transport Properties of Ni-Fe-Al Alloys
p.111

Recent Developments in Ni-Mn-Ga Foam Research
p.119

Magnetoelastic Coupling in Ni-Mn-Ga Magnetic Shape Memory Alloy
p.125

Evaluation of Magnetostriction of the Single-Variant Ni-Mn-Ga Martensite
p.131

HomeMaterials Science ForumMaterials Science Forum Vol. 635Effect of Co and Mn Doping on the Martensitic...

Effect of Co and Mn Doping on the Martensitic Transformations and Magnetic Properties of Fe-Pd Ferromagnetic Shape Memory Alloys

Abstract:

The effect of the partial substitution of Fe by Co and Mn on the structural and magnetic properties of Fe-Pd alloys has been investigated by means of calorimetric, magnetic and neutron diffraction measurements. The addition of Mn increases both the reversible and irreversible MT temperatures whereas the addition of Co causes the opposite effect, which points out that that the compositional dependence of the transformation temperatures of the Fe-Pd alloys is not related to the Pd amount but to the e/a concentration. Furthermore, it is shown that the appearance of the BCT phase is directly related to the tetragonality of the FCT phase. On the other hand, the amount of FCT martensite that irreversibly transforms into the undesirable BCT phase is considerably reduced by both the Co and Mn doping. The substitution of Fe by Co seems to be especially interesting for magnetic field-induce strains applications since both the magnetic anisotropy and the saturation magnetization of the Fe-Pd FCT martensite are considerably increased with the Co addition.

By email Full Text Pdf

You have full access to the following eBook