Iron-based metallic glass alloy powder

1 . An iron-based metallic glass alloy powder, wherein the iron-based metallic glass alloy is represented by the following compositional formula: (Fe 1-s-t Co s Ni t ) 100-x-y [(Si a B b ) m (P c C d ) n ] x M y , the compositional ratios of the iron-based metal element group Fe, Co, and Ni are such that 19x≤22, 0≤y≤6.0, 0≤s≤0.35 0≤t≤0.35 and s+t≤0.35, the compositional ratios of the semimetal element group Si, B, P, and C are such that (0.5:1)≤(m:n)≤(6:1), (2.5:7.5)≤(a:b)≤(5.5:4.5), and (5.5:4.5)≤(c:d)≤(9.5:0.5), the degree-of-supercooling improvement element group M is at least one selected from the group consisting of Nb and Mo, the iron-based metallic glass alloy further comprises at least one selected from the group consisting of Cr and Zr as a corrosion resistance modification component, the content ratio of the corrosion resistance modification component is 2.8 to 5.5% by weight based on the total mass of the alloy components, and the iron-based metallic glass alloy powder has a particle size of 0.5 μm or more and less than 3 μm. 2 . An iron-based metallic glass alloy powder, wherein the iron-based metallic glass alloy is represented by the following compositional formula: (Fe 1-s-t Co s Ni t ) 100-x-y [(Si a B b ) m (P c C d ) n ] x M y , the compositional ratios of the iron-based metal element group Fe, Co, and Ni are such that 19≤x≤26, 0≤y≤6.0, 0≤s≤0.35, 0≤t≤0.35, and s+t≤0.35, the compositional ratios of the semimetal element group Si, B, P, and C are such that (0.5:1)≤(m:n)≤(6:1), (2.5:7.5)≤(a:b)≤(5.5:4.5), and (5.5:4.5)≤(c:d)≤(9.5:0.5), the degree-of-supercooling improvement element group M is at least one selected from the group consisting of Nb and Mo, the iron-based metallic glass alloy further comprises at least one selected from the group consisting of Cr and Zr as a corrosion resistance modification component, the content ratio of the corrosion resistance modification component is 2.3 to 5.5% by weight based on the total mass of the alloy components, and the iron-based metallic glass alloy powder has a particle size of 3 μm or more and less than 10 μm. 3 . An iron-based metallic glass alloy powder, wherein the iron-based metallic glass alloy is represented by the following compositional formula: (Fe 1-s-t Co s Ni t ) 100-x-y [(Si a B b ) m (P c C d ) n ] x M y , the compositional ratios of the iron-based metal element group Fe, Co, and Ni are such that 19≤x≤26, 0≤y≤6.0, 0≤s≤0.35, 0≤t≤0.35, and s+t≤0.35, the compositional ratios of the semimetal element group Si, B, P, and C are such that (0.5:1)≤(m:n)≤(6:1), (2.5:7.5)≤(a:b)≤(5.5:4.5), and (5.5:4.5)≤(c:d)≤(9.5:0.5), the degree-of-supercooling improvement element group M is at least one selected from the group consisting of Nb and Mo, and the iron-based metallic glass alloy powder has a particle size of 10 to 30 μm. 4 . An irons-based metallic glass alloy powder, wherein the iron-based metallic glass alloy is represented by the following compositional formula: (Fe 1-s-t Co s Ni t ) 100-x-y [(Si a B b ) m (P c C d ) n ] x M y , the compositional ratios of the iron-based metal element group Fe, Co, and Ni are such that 19≤x≤22, 0≤y≤6.0, 0≤s≤0,35, 0<t≤0.35, and s+t≤0.35, the compositional ratios of the semimetal element group Si, B, P. and C are such that (0.5:1)≤(m:n)≤(6.1:1), (2.5:7.5)≤(a:b)≤(5.6:4.4), and (4.2:5.8)≤(c:d)≤(9.5:0.5), the degree-of-supercooling improvement element group M is at least one selected from the group consisting of Nb and Mo, the iron-based metallic glass alloy further comprises at least one selected from the group consisting of Cr and Zr as a corrosion resistance modification component, the content ratio of the corrosion resistance modification component is 2.,8 to 5.5% by weight based on the total mass of the alloy components, and the iron-based metallic glass alloy powder has a particle size of 0.5 μm or more and less than 3 μm. 5 . An iron-based metallic glass alloy powder, wherein the iron-based metallic glass alloy is represented by the following compositional formula: (Fe 1-s-t Co s Ni t ) 100-x-y [(Si a B b ) m (P c C d ) n ] x M y , the compositional ratios of the iron-based metal element group Fe, Co, and Ni are such that 19≤x≤26, 0≤y≤6.0, 0≤s≤0.35, 0≤t≤0.35, and s+t≤0.35, the compositional ratios of the semimetal element group Si, B, P, and C are such that (0.5:1)≤(m:n)≤(6.1:1), (2.5:7.5)≤(a:b)≤(5.6:4.4), and (4.2:5.8)≤(c:d)≤(9.5:0.5), the degree-of-supercooling improvement element group M is at least one selected from the group consisting of Nb and Mo, the iron-based metallic glass alloy further comprises at least one selected from the group consisting of Cr and Zr as a corrosion resistance modification component, the content ratio of the corrosion resistance modification component is 2.3 to 5.5% by weight based on the total mass of the alloy components, and the iron-based metallic glass alloy powder has a particle size of 3 μm or more and less than 10 μm. 6 . An iron-based metallic glass alloy powder, wherein the iron-based metallic glass alloy is represented by the following compositional formula: (Fe 1-s-t Co s Ni t ) 100-x-y [(Si a B b ) m (P c C d ) n ] x M y , the compositional ratios of the iron-based metal element group Fe, Co, and Ni are such that 19≤x≤26, 0≤y≤6.0, 0≤s≤0.35, 0≤t≤0.35, and s+t≤0.35, the compositional ratios of the semimetal element group Si, B, P, and C are such that (0.5:1)≤(m:n)≤(6.1:1), (2.5:7.5)≤(a:b)≤(5.6:24.4), and (4.2:5.8)≤(c:d)≤(9.5:0.5), the degree-of-supercooling improvement element group M is at least one selected from the group consisting of Nb and Mo, and the iron-based metallic glass alloy powder has a particle size of 10 to 30 μm. 7 . The iron-based metallic glass alloy powder according to claim 3 , wherein the iron-based metallic glass alloy further comprises at least one selected from the group consisting of Cr and Zr as a corrosion resistance modification component in an amount of greater than 0% by weight and not higher than 5.5% by weight based on the total mass of the alloy components. 8 . The iron-based metallic glass alloy powder according to claim 1 , wherein the corrosion resistance modification component is Cr. 9 . A formed article produced by using the iron-based metallic glass alloy powder according to claim 1 . 10 . The iron-based metallic glass alloy powder according to claim 6 , wherein the iron-based metallic glass alloy further comprises at least one selected from the group consisting of Cr and Zr as a corrosion resistance modification component in an amount of greater than 0% by weight and not higher than 5.5% by weight based on the total mass of the alloy components. 11 . The iron-based metallic glass alloy powder according to claim 2 , wherein the corrosion resistance modification component is Cr. 12 . The iron-based metallic glass alloy powder according to claim 4 , wherein the corrosion resistance modification component is Cr. 13 . The iron-based metallic glass alloy powder according to claim 5 , wherein the corrosion resistance modification component is Cr. 14 . The iron-based metallic glass alloy powder according to claim 7 , wherein the corrosion resistance modification component is Cr. 15 . A formed article produced by using the iron-based metallic glass alloy powder according to claim 2 . 16 . A formed article produced by using the iron-based metallic glass alloy powder according to claim 3 . 17 . A formed article produced by using the iron-based metallic glass alloy powder according to clai