Abstract: This disclosure is directed to sintered bodies comprising grains and a grain boundary composition, wherein: (a) the grains comprise a composition substantially represented by a formula G2M14B, where G is Nd, Dy, Pr, Tb, or a combination thereof, and M is Co, Fe, Ni, or a combination thereof, wherein the grains are optionally doped with one or more rare earth elements; and (b) the grain boundary composition is an alloy composition substantially represented by the formula: Nd8.5-12.5Dy35-45Co32-41Cu3-6.5Fe1.5-5, wherein the subscript values are atom percent relative to the total composition of the alloy composition. Corresponding populations of particles are also disclosed.

Abstract: This disclosure is directed to methods for creating recycled Nd—Fe—B type permanent magnets, the methods comprising homogenizing a first population of particles of a rare earth transitional elemental additive with a second population of particles of a magnetic material, wherein the nature of the rare earth transitional elemental additive and the magnetic material are described herein. Additional steps may include compressing the population of homogenized particles together to form a green body, and heating the green body at a temperature and for a time sufficient to sinter the green body into a sintered body. Compositions resulting from these methods are also within the scope of the disclosure.

Abstract: The present disclosure is directed at methods of preparing rare earth-based permanent magnets having improved coercivity and remanence, the method comprising one or more steps comprising: (a) homogenizing a first population of particles of a first GBM alloy with a second population of particles of a second core alloy to form a composite alloy preform, the first GBM alloy being substantially represented by the formula: ACbRxCoyCudMz, the second core alloy being substantially represented by the formula G2Fe14B, where AC, R, M, G, b, x, y, and z are defined; (b) heating the composite alloy preform particles to form a population of mixed alloy particles; (c) compressing the mixed alloy particles, under a magnetic field of a suitable strength to align the magnetic particles with a common direction of magnetization and inert atmosphere, to form a green body; (d) sintering the green body; and (e) annealing the sintered body.

Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for creating magnetic material. One of the methods may make a compound that includes at least one of: i) an amount of Nd in a range of [6.1717, 11.8917] (at. %), inclusive, ii) an amount of Pr in a range of [1.5495, 4.821] (at. %), inclusive, or iii) an amount of Dy in a range of [0.2132, 5.3753] (at. %), inclusive, and an amount of Co in a range of [0, 4.0948] (at. %), inclusive, an amount of Cu in a range of [0.0545, 0.2445] (at. %), inclusive, and an amount of Fe in a range of [81.1749, 85.867] (at. %), inclusive.