Title
Large reversible magnetic entropy change in rapidly solidified Ni0.895Cr0.105MnGe1.05 melt-spun ribbons
11627/515711627/5157
Author
Aryal, Anil
Quetz, Abdiel
Sánchez Valdés, Cesar Fidel
Ibarra Gaytán, Pablo Jesús
Pandey, Sudip
Dubenko, Igor
Sánchez Llamazares, José Luis
Stadler, Shane
Ali, Naushad
Abstract
"The crystal structure, and magnetic and magnetocaloric properties of rapidly solidified Ni0.895Cr0.105MnGe1.05 melt-spun ribbons is reported. The ribbon samples crystallize into a single-phase hexagonal Ni2In-type structure at room temperature. The as-quenched ribbons showed a second order magnetic transition at 192 ± 1 K at μoH = 5 mT. A magnetic-field-induced transition from an antiferromagnetic (AFM)-like to a ferromagnetic (FM) state of martensite structure was observed in annealed ribbons below the temperature of the martensitic transformation (TM ∼ 245 ± 1 K). The annealed ribbons undergo a first-order magnetostructural transition (MST) with a large maximum reversible magnetic entropy change of ΔSM = 16.1 J kg−1 K−1 (this is about a four-fold increase compared to the ΔSM observed for the bulk sample of the same nominal composition) and RC = 144 J kg−1 for μoΔH = 5 T at temperature T = TM ∼ 245 ± 1 K. The increase in the ΔSM peak value leads to an improved RC compared to that of the bulk sample (122 J kg−1). The observed MCE and quasi-reversible character of ΔSM at the MST illustrates the potential of Ni0.895Cr0.105MnGe1.05 ribbons for magnetic cooling technology."
Publication date
2018Publication type
articleDOI
https://doi.org/10.1016/j.intermet.2018.04.003Knowledge area
QUÍMICAPublisher
ElsevierKeywords
Ni-Mn-Ge alloy ribbonsMagnetocaloric effect
Magnetostructural coupling
Martensitic transformation