Abstract
In the present work, Fe(88)Zr(8-x)Sm(x)B(4) (x = 2, 4) amorphous alloys (AAs) were successfully synthesized into the shape of 40-micrometer-thick ribbons and their magnetic properties were measured. The Fe(88)Zr(8-x)Sm(x)B(4) (x = 2, 4) AAs exhibited a rather high maximum magnetic entropy change (-ΔS(m)(peak)): ~3.53 J/(K × kg) near 317 K for x = 2 and ~3.79 J/(K × kg) near 348 K for x = 4 under 5 T. The effects of a Sm substitution for Zr on the Curie temperature (T(c)) and -ΔS(m)(peak) were studied and compared to those of Nd and Pr substitutions, for the purpose of revealing the mechanism involved in more detail.