Título
Influence of Fe doping and magnetic field on martensitic transition in Ni–Mn–Sn melt-spun ribbons
11627/374311627/3743
Autor
Aguilar Ortiz, Christian Omar
Soto-Parra, Daniel Enrique
Álvarez Alonso, Pablo
Lázpita, Patricia
Salazar, Daniel
Castillo Villa, Pedro Osmany
Flores Zúñiga, Horacio
Chernenko, Volodymyr
Resumen
"Mn-rich Ni-Mn-Sn metamagnetic shape memory alloys exhibiting magnetostructural transformation are of a great potential as the base materials for solid-state refrigeration. With the aim of fine tuning of the transformation characteristics and improving functional properties, in the present work we have fabricated polycrystalline Ni50-xFexMn40Sn10 (x = 0, 2, 4, 6, 8 at.%) melt-spun ribbons, starting from the base alloy with x = 0, which is weakly magnetic in both austenitic and martensitic phases. By exploring martensitic transformation (MT) and magnetic behaviors as a function of Fe doping and magnetic field, we have found that Fe and/or magnetic field reduce the MT temperature and Curie temperature of austenite phase, becoming closer to each other as the Fe-content increases, accompanied by an increase of the magnetic moment of austenite, magnetization jump at MT, transformation volume, and magnetic contribution, Delta S-M, to the total entropy change at MT. The ribbons present moderate values of Delta S-M equal to 11 J kg(-11)K(-1) at 5 T for x = 8, moderate thermal hysteresis (10-14 K) nearly independent of Fe doping or magnetic field, and adjustable structural and magnetic transition temperatures close to room temperature. (C) 2016 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved."
Fecha de publicación
2016-04Tipo de publicación
articleDOI
https://doi.org/10.1016/j.actamat.2016.01.041Área de conocimiento
METALURGIAEditor
ElsevierPalabras clave
Ni(Fe)–Mn–Sn metamagnetic shape memory alloyMartensitic transformation
Phase diagram
Entropy
Magnetocaloric effect