Phase transition and magnetocaloric effect in particulate Fe-Rh alloys

Micro-sized particles of FexRh100-x(x = 50, 48, 45, 40, and 35) binary alloys were synthesized by a solid-phase reduction method and their structural properties, magnetic properties and cytotoxicity have been characterized. From X-ray diffraction results, the Fe(50)Rh(50)alloy is in a single chemically ordered alpha ' phase while the face-centered cubic disordered gamma phase arises and increases with Rh content whenxis smaller than 50. The magnetization behavior of the alloys demonstrates that the alpha ' phase consists of ferromagnetic and antiferromagnetic components due to the nonuniformity of elements in the particulate alloys. The maximal magnetic entropy change and the relative refrigeration capacity of the Fe(50)Rh(50)particles reach 9.7 J/kg K and 230 J/kg, respectively, with a 0-3 T magnetic field change. Despite its moderate magnetic entropy among the first-order transition materials, Fe(50)Rh(50)microparticles are promising for biomedical applications due to its large relative cooling power and low cytotoxicity.