Hysteresis, latent heat and cycling effects on the magnetocaloric response of (NiMnSi)0.66(Fe2Ge)0.34 alloy

In this work, we further analyze the promising magnetocaloric (NiMnSi)0.66(Fe2Ge)0.34 alloy, which presents isothermal entropy change values as large as 29 J kg−1 K−1 for 2 T at room temperature. It undergoes a magnetostructural transition accompanied by large thermal/magnetic hysteresis, which rema...

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Published in:Intermetallics 2021-04, Vol.131, p.107083, Article 107083
Main Authors: Moreno-Ramírez, L.M., Díaz-García, Á., Law, J.Y., Giri, A.K., Franco, V.
Format: Article
Language:English
Subjects:
Demagnetization
Hysteresis
Latent heat
Magnetocaloric effect
Magnetostructural transformations
Measurement methods
MnNiSi-Based alloys
Phase diagrams
Phase transitions
Room temperature
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description In this work, we further analyze the promising magnetocaloric (NiMnSi)0.66(Fe2Ge)0.34 alloy, which presents isothermal entropy change values as large as 29 J kg−1 K−1 for 2 T at room temperature. It undergoes a magnetostructural transition accompanied by large thermal/magnetic hysteresis, which remains up to high magnetic fields (corroborated by the elaboration of an experimental magnetic phase diagram). We illustrate that this huge hysteretic behavior (i.e. different responses when magnetizing or demagnetizing) can lead to erroneous interpretation of the order of the phase transition by applying the conventional Banerjee's criterion or the recently developed field dependence analysis of the magnetocaloric effect. Additionally, the cyclability of the response is characterized, showing that after several measurements the magnetocaloric response is significantly reduced (by ≈ 40%) due to sample breaking. These dependences together with the large latent heat of the transition (15.0 kJ kg−1) lead to relatively small values of the adiabatic temperature change for powdered samples at moderate field changes, reaching around 0.6 K for 1.75 T by direct measurement methods. •(NiMnSi)0.66(Fe2Ge)0.34 shows large ΔsT values at room temperature.•This is accompanied by low reversibility/large hysteresis.•Hysteresis can lead to erroneous interpretation of the order of the transition.•Cycling effect reduces the magnetocaloric response around 40%.•ΔTS is shown to be limited (around 0.6 K at 1.76 T) due to the high latent heat.
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subjects Demagnetization
Hysteresis
Latent heat
Magnetocaloric effect
Magnetostructural transformations
Measurement methods
MnNiSi-Based alloys
Phase diagrams
Phase transitions
Room temperature
title Hysteresis, latent heat and cycling effects on the magnetocaloric response of (NiMnSi)0.66(Fe2Ge)0.34 alloy
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