Thermomagnetic and magnetocaloric properties of metamagnetic Ni-Mn-In-Co Heusler alloy in magnetic fields up to 140 kOe

High cooling power of magnetocaloric refrigeration can be achieved only at large amounts of heat, which can be transferred in one cycle from cold end hot end at quasi-isothermal conditions. The simple and robust experimental method of direct measuring of the transferred heat of materials with magnetocaloric effect (MCE) in thermal contact with massive copper block with definite heat capacity in quasi-isothermal regime was proposed. The vacuum calorimeter for the specific transferred heat Delta Q and adiabatic temperature change Delta T measurements of MCE materials in the fields of Bitter coil magnet up to H = 140 kOe was designed and tested on samples of Ni sub(43)Mn sub(37.9)In sub(12.1)Co sub(7) Heusler alloy with inverse MCE in the vicinity of meta-magneto-structural phase transition (PT). It was found, that the magnetic field H = 80 kOe produces complete PT from martensite to austenite with Delta Q = - 1600 J/kg at initial temperature 273 K.