Thermally stable, high temperature, samarium cobalt molding compound

The present invention relates to the field of magnetic parts of the type used in a variety of industrial devices and other applications. More specifically, the invention relates to the field of magnetic parts exhibiting high performance characteristics in relatively high temperature environments. A magnetic compound is formed comprising: (1) 25% to 50% by volume of polyphenylene sulfide (PPS); (2) 50% to 70% by volume of coated samarium cobalt (the coating comprising 1 to 30% Kaolin by weight of the coating and 70 to 99% potassium silicate by volume of the coating); and (3) 0% to 5% by volume of an internal lubricant. The PPS polymer component of the compound renders the compound amenable to be injection molded to precise tolerances and also has a low coefficient of linear thermal expansion. The samarium cobalt constituent of the compound provides thermal stability. The potassium silicate/kaolin coating separates the PPS from the samarium cobalt, thus preventing degradation (i.e, PPS viscosity reduction) during manufacture.