Coercivity improvement for vanadium carbide (VC) doped sintered Nd−Fe−B magnets: Effectively tuning microstructure Verbesserung der Koerzitivkraft von mit Vanadiumkarbid (VC) dotierten gesinterten Nd−Fe−B−Magneten: Effektive Abstimmung des Gefüges

Abstract

Vanadium carbide (VC) nano-particles were introduced into sintered Nd−Fe−B magnets for the purpose of grain refinement and coercivity enhancement. The effect of vanadium carbide (VC) addition on the microstructure and magnetic properties evolution of sintered Nd−Fe−B magnets was studied. Based on the characterization results, the additive vanadium carbide (VC) nano-particles mainly reacted with rare earth (RE)-rich phase to form ferrovanadium (FeV) phase, which rooted in the grain boundary. The ferrovanadium (FeV) phase inserted influence on the dissolution-precipitation process and acted as pinning sites and heterogeneous nucleation sites, which was favorable for the grain refinement. As a result, the coercivity of sintered magnets enhanced significantly from 13.62 kOe to 16.15 kOe without obvious decline of remanence when the vanadium carbide (VC) nano-particles additive amount increased from 0 wt.–% to 0.1 wt.–%. The above findings shed light on the microstructure manipulation to obtain high performance sintered magnets.