Magnetic properties and microstructure of Fe4N and (Fe,Ni)4N

Abstract

Single‐phase Fe₄N and (Fe_1−xNi_x)₄N compounds have been synthesized in a continuous form by heat treating iron and iron‐nickel alloy sheets at various temperatures under NH₃/H₂ atmospheres. The Fe₄N sheet has a high room‐temperature magnetization value of 179 emu/g (2.14 μ_B/Fe), which is only slightly less than 218 emu/g (2.19 μ_B/Fe) observed in pure iron. The magnetic moments of the Fe‐Ni alloy nitrides decreased monotonically as x was increased, in contrast to those for the starting alloys Fe_1−xNi_x which exhibited a peak value around x=0.05. The decrease in magnetic moment with nickel content in the alloy nitrides was close to the value anticipated by magnetic dilution from nickel. The coercive force is about 5 Oe and is slightly decreased by the Ni substitution. The Fe‐nitride offers a significantly improved corrosion resistance over pure iron. Even further improvement is obtained in the (Fe_1−xNi_x)₄N system with only slight sacrifice in magnetic moment. The addition of nickel has been found to noticeably improve the mechanical ductility of the normally brittle Fe₄N compound. Theses nitrides also exhibit significantly increased electrical resistivity and wear resistance, and may be useful for a variety of technological applications.