Iron and manganese based magnetocaloric materials for near room temperature thermal management
V Chaudhary, X Chen, RV Ramanujan - Progress in Materials Science, 2019 - Elsevier
Thermal management technology based on the magnetocaloric effect offers several
advantages over conventional gas compression cooling. The efficiency of magnetic cooling …
advantages over conventional gas compression cooling. The efficiency of magnetic cooling …
Advanced Magnetocaloric Materials for Energy Conversion: Recent Progress, Opportunities, and Perspective
Solid‐state caloric effects as intrinsic thermal responses to different physical external stimuli
(magnetic‐, uniaxial stress‐, pressure‐, and electric‐fields) can achieve a higher energy …
(magnetic‐, uniaxial stress‐, pressure‐, and electric‐fields) can achieve a higher energy …
Overview of magnetoelastic coupling in (Mn, Fe)2(P, Si)-type magnetocaloric materials
Abstract (MnFe) 2 (P, Si)-type compounds are, to date, one of the best candidates for
magnetic refrigeration and energy conversion applications due to the combination of giant …
magnetic refrigeration and energy conversion applications due to the combination of giant …
[HTML][HTML] Impact of F and S doping on (Mn, Fe) 2 (P, Si) giant magnetocaloric materials
F Zhang, I Batashev, Q Shen, Z Wu, RI Smith… - Acta Materialia, 2022 - Elsevier
Abstract The quarternary (Mn, Fe) 2 (P, Si)-based materials with a giant magnetocaloric
effect (GMCE) at the ferromagnetic transition TC are promising bulk materials for solid-state …
effect (GMCE) at the ferromagnetic transition TC are promising bulk materials for solid-state …
Large magnetocaloric effect near room-temperature by tuning the magneto-structural transition in (Mn, Fe)(Ni, Fe) Si alloy
The observation of near room-temperature coupling of both magnetic and structural
transitions in Fe substituted Mn-Ni-Si alloy leads to an interesting magneto-structural …
transitions in Fe substituted Mn-Ni-Si alloy leads to an interesting magneto-structural …
[HTML][HTML] Combined effect of annealing temperature and vanadium substitution for mangetocaloric Mn1. 2-xVxFe0. 75P0. 5Si0. 5 alloys
Approaching the border of the first order transition and second order transition is significant
to optimize the giant magnetocaloric materials performance. The influence of vanadium …
to optimize the giant magnetocaloric materials performance. The influence of vanadium …
Switching the magnetostructural coupling in MnCoGe-based magnetocaloric materials
We performed neutron-diffraction experiments and density functional theory calculations to
study the magnetostructural coupling in MnCoGe B x (x= 0, 0.01, and 0.05) alloys. By …
study the magnetostructural coupling in MnCoGe B x (x= 0, 0.01, and 0.05) alloys. By …
[HTML][HTML] Effect of the heat treatment on the microstructure, magnetism and magnetocaloric effect in Fe-rich (Mn, Fe) y (P, Si) melt-spun ribbons
A Kiecana, C Kwakernaak, NH van Dijk… - Journal of Alloys and …, 2023 - Elsevier
The effect of the heat treatment on the magnetism, magnetocaloric effect and microstructure
formation has been systematically studied in Fe-rich (Mn, Fe) y (P, Si) melt-spun ribbons …
formation has been systematically studied in Fe-rich (Mn, Fe) y (P, Si) melt-spun ribbons …
Site-specific atomic substitution in a giant magnetocaloric -type system
Giant magnetocaloric (GMC) materials constitute a requirement for near-room-temperature
magnetic refrigeration.(Fe, Mn) 2 (P, Si) is a GMC compound with strong magnetoelastic …
magnetic refrigeration.(Fe, Mn) 2 (P, Si) is a GMC compound with strong magnetoelastic …
Small hysteresis and giant magnetocaloric effect in Nb-substituted (Mn, Fe) 2 (P, Si) alloys
S Hu, X Miao, J Liu, Z Ou, M Cong, O Haschuluu… - Intermetallics, 2019 - Elsevier
The influence of Nb substitution on the structure, magnetoelastic transition and
magnetocaloric properties has been investigated for the Mn 1.1 Fe 0.85-x Nb x P 0.43 Si …
magnetocaloric properties has been investigated for the Mn 1.1 Fe 0.85-x Nb x P 0.43 Si …