Enhanced magnetocaloric effect in Ni-Mn-Sn-Co alloys with two successive magnetostructural transformations

High magnetocaloric refrigeration performance requires large magnetic entropy change ΔS(M) and broad working temperature span ΔT(FWHM). A fourth element doping of Co in ternary Ni-Mn-Sn alloy may significantly enhance the saturation magnetization of the alloy and thus enhance the ΔS(M). Here, the effects of Co-doping on the martensite transformation, magnetic properties and magnetocaloric effects (MCE) of quaternary Ni(47−x)Mn(43)Sn(10)Co(x) (x = 0, 6, 11) alloys were investigated. The martensite transformation temperatures decrease while austenite Curie point increases with Co content increasing to x = 6 and 11, thus broadening the temperature window for a high magnetization austenite (13.5, 91.7 and 109.1 A·m(2)/kg for x = 0, 6 and 11, respectively). Two successive magnetostructural transformations (A → 10 M and A → 10 M + 6 M) occur in the alloy x = 6, which are responsible for the giant magnetic entropy change ΔS(M = )29.5 J/kg·K, wide working temperature span ΔT(FWHM) = 14 K and large effective refrigeration capacity RC(eff) = 232 J/kg under a magnetic field of 5.0 T. These results suggest that Ni(40.6)Mn(43.3)Sn(10.0)Co(6.1) alloy may act as a potential solid-state magnetic refrigerant working at room temperature.