Metal-bonded Sm2Fe17-N-type magnets

Abstract

A number of metal‐bonded Sm₂Fe₁₇‐N magnets have been fabricated. These magnets exhibit _iHc = 5.1–17.0 kOe, B_r = 6.4–8.4 kG, (BH)_max=5.0–10.8 MGOe, T_c = 757 K, and ρ=6.2–6.7 g/cm³. Powder metallurgical techniques have been employed with a mixture of powdered Sm₂Fe₁₇‐N and Zn, Sn, or In. Heat treatment is carried out in the temperature range of 160–450 °C in a N₂ atmosphere at pressures ranging from 0–900 psi. The effects of Zn, Sn, and In contents and heat treatment conditions on the magnetic properties have been studied. Zn as the binder significantly enhances the coercivity _iHc from 1.8–2.5 kOe for Zn‐free magnets to 5–17 kOe for 9–20‐wt. % Zn‐containing magnets. The Fe‐Zn phase, FeZn₄, and/or Fe₃Zn₇, formed during heat treatment, may play an important role in producing a high coercivity. Sn‐bonded magnets exhibit significant coercivity, whereas the In‐bonded materials do not. The coercivity behavior is discussed in terms of the chemistry of the system.