Magnetocaloric La(Fe,Mn,Si)13Hz particles and their chemical stability in heat transfer fluids employed in magnetic refrigeration

“…It was found that the presence of a corrosion inhibitor is crucial to maintain the chemical stability of the magnetocaloric materials. 46 A magnetic field was also found to influence the chemical stability of La(Fe, Si) 13 alloys immersed in deionized water—the direction of the magnetic field played a critical role in the corrosion rate. 47 For example, the sample immersed in deionized water for 3 days with exposure to 1 T parallel and 1 T perpendicular magnetic fields experienced a 56 and 22% reduction in its corrosion rate when compared to the case with zero magnetic field.…”

“…Studies involved immersing La­(Fe,Mn,Si) 13 H z particles in two kinds of media: deionized water and deionized water with corrosion inhibitors. It was found that the presence of a corrosion inhibitor is crucial to maintain the chemical stability of the magnetocaloric materials . A magnetic field was also found to influence the chemical stability of La­(Fe, Si) 13 alloys immersed in deionized waterthe direction of the magnetic field played a critical role in the corrosion rate .…”

Unlocking the Potential of Magnetic Refrigeration: Investigating the Compatibility of the Ga-Based Liquid Metal with a La(Fe,Mn,Si)₁₃H_z Magnetocaloric Material for Enhanced Long-Term Stability

“…It was found that the presence of a corrosion inhibitor is crucial to maintain the chemical stability of the magnetocaloric materials. 46 A magnetic field was also found to influence the chemical stability of La(Fe, Si) 13 alloys immersed in deionized water—the direction of the magnetic field played a critical role in the corrosion rate. 47 For example, the sample immersed in deionized water for 3 days with exposure to 1 T parallel and 1 T perpendicular magnetic fields experienced a 56 and 22% reduction in its corrosion rate when compared to the case with zero magnetic field.…”

“…Studies involved immersing La­(Fe,Mn,Si) 13 H z particles in two kinds of media: deionized water and deionized water with corrosion inhibitors. It was found that the presence of a corrosion inhibitor is crucial to maintain the chemical stability of the magnetocaloric materials . A magnetic field was also found to influence the chemical stability of La­(Fe, Si) 13 alloys immersed in deionized waterthe direction of the magnetic field played a critical role in the corrosion rate .…”

Unlocking the Potential of Magnetic Refrigeration: Investigating the Compatibility of the Ga-Based Liquid Metal with a La(Fe,Mn,Si)₁₃H_z Magnetocaloric Material for Enhanced Long-Term Stability

Unstable antiferromagnetism and large reversible magnetocaloric effect in TmNi2Si2

Giant low-field magnetocaloric effect in unstable antiferromagnetic Tm1–Er Ni2Si2 (x = 0.2, 0.4) compounds