Method for producing powder for magnet

The invention claimed is: 1. A method for producing a rare-earth-iron-nitrogen-based alloy material used for a rare-earth magnet, the method comprising: a preparation step of preparing an alloy powder composed of a rare-earth-iron-based alloy that contains a rare-earth element serving as an additional element; a hydrogenation step of heat-treating the rare-earth-iron-based alloy powder in a hydrogen element-containing atmosphere at a temperature equal to or higher than a disproportionation temperature of the rare-earth-iron-based alloy to form a powder for a magnet, wherein the powder is constituted by magnetic particles, each of the magnetic particles contains a hydride of a rare-earth element in an amount of less than 40% by volume and the balance being an iron-containing material that contains Fe, wherein a phase of the hydride of the rare-earth element is adjacent to a phase of the iron-containing material, and an interval between adjacent phases of the hydride of the rare-earth element with the phase of the iron-containing material provided therebetween is 3 μm or less; a coating step of coating an antioxidation layer on a surface of each of the magnetic particles, the antioxidation layer including a low-oxygen-permeability layer composed of a material having an oxygen permeability coefficient at 30° C. of less than 1.0×10 −11 m 3 ·m/(s·m 2 ·Pa) and a low-moisture-permeability layer composed of a material having a moisture permeability coefficient at 30° C. of less than 1000×10 −13 kg/(m·s·MPa), the low-oxygen-permeability layer is polyester or polyvinyl chloride; a compacting step of compacting the powder for the magnet to provide a powder compact having a relative density of 85% or more; and a dehydrogenation step of heat-treating the powder compact in an inert atmosphere or a reduced atmosphere at a temperature equal to or higher than a recombination temperature of the powder compact to form the rare-earth-iron-based alloy material. 2. A method for producing a rare-earth-iron-nitrogen-based alloy material used for a rare-earth magnet, the method comprising: a preparation step of preparing an alloy powder composed of a rare-earth-iron-based alloy that contains a rare-earth element serving as an additional element; a hydrogenation step of heat-treating the rare-earth-iron-based alloy powder in a hydrogen element-containing atmosphere at a temperature equal to or higher than a disproportionation temperature of the rare-earth-iron-based alloy to form a powder for a magnet, wherein the powder is constituted by magnetic particles, each of the magnetic particles contains a hydride of a rare-earth element in an amount of less than 40% by volume and the balance being an iron-containing material that contains Fe, wherein a phase of the hydride of the rare-earth element is adjacent to a phase of the iron-containing material, and an interval between adjacent phases of the hydride of the rare-earth element with the phase of the iron-containing material provided therebetween is 3 μm or less; a coating step of coating an antioxidation layer on a surface of each of the magnetic particles, the antioxidation layer including a low-oxygen-permeability layer composed of a material having an oxygen permeability coefficient at 30° C. of less than 1.0×10 −11 m 3 ·m/(s·m 2 ·Pa) and a low-moisture-permeability layer composed of a material having a moisture permeability coefficient at 30° C. of less than 1000×10 −13 kg/(m·s·MPa), the low-oxygen-permeability layer is polyester or polyvinyl chloride; a compacting step of compacting the powder for the magnet to provide a powder compact having a relative density of 85% or more; and a dehydrogenation step of heat-treating the powder compact in an inert atmosphere or a reduced atmosphere at a temperature equal to or higher than a recombination temperature of the powder compact to form the rare-earth-iron-based alloy material, wherein the rare-earth-iron-based-alloy is a Sm—Fe—Ti alloy.