Vinod Anjana, Diraviam Arvindha Babu, Muthuvel Manivel Raja, Wuppulluri Madhuri
School of Advanced Sciences, Vellore Institute of Technology Vellore 632014 Tamil Nadu India.
Defence Metallurgical Research Laboratory Hyderabad 500058 Telangana India.
RSC Adv. 2025 May 9;15(19):15310-15317. doi: 10.1039/d5ra01759a. eCollection 2025 May 6.
The magnetocaloric effect (MCE) has garnered much attention in recent years, especially for rare earth (RE)-free magnetic materials. The increasing focus on these materials arises from their prospective uses in cryogenic magnetic cooling and elevated temperature environments. The study conducts a systematic experimental examination of a novel magnetocaloric material, FeHfZrBCu ribbons, primarily aimed at characterising their structural, magnetic, and magnetocaloric properties. X-ray diffraction (XRD) analysis confirmed the successful incorporation of hafnium in the Fe site of the Fe-Zr-B-Cu matrix. Furthermore, the magnetic properties of the ribbon were also investigated, yielding a Curie transition temperature of 678 K and a magnetic entropy change of 0.448 J kg K at 2.0 T. Notably, the relative cooling power and refrigeration capacity were determined to be 11.87 J kg and 14.0 J kg, respectively, highlighting the potential of the material for high-temperature magnetocaloric applications. These findings collectively demonstrate that the novel FeHfZrBCu ribbon exhibits promising magnetocaloric properties, rendering it a suitable candidate for further investigation and potential applications in high-temperature magnetocaloric devices.
近年来,磁热效应(MCE)备受关注,尤其是对于不含稀土(RE)的磁性材料。对这些材料的关注度不断提高,源于它们在低温磁制冷和高温环境中的潜在用途。该研究对一种新型磁热材料FeHfZrBCu薄带进行了系统的实验研究,主要目的是表征其结构、磁性和磁热性能。X射线衍射(XRD)分析证实,铪成功地掺入到Fe-Zr-B-Cu基体的Fe位点中。此外,还研究了薄带的磁性,得出居里转变温度为678 K,在2.0 T时磁熵变为0.448 J kg K。值得注意的是,相对冷却功率和制冷量分别确定为11.87 J kg和14.0 J kg,突出了该材料在高温磁热应用中的潜力。这些发现共同表明,新型FeHfZrBCu薄带展现出有前景的磁热性能,使其成为进一步研究以及在高温磁热装置中潜在应用的合适候选材料。
