The microstructure, effect of grain size on the coercivity and corrosion behaviour of Nd₁₄DyFe_69.5Co₅AlCr₂B_7.5 sintered magnets have been investigated. Besides the hard magnetic boride phase (Nd,Dy)₂(Fe,Co,Al,Cr)₁₄B, a boron-rich phase (Nd,Dy)_{1+ in}(Fe,Co,Cr)₄B₄ and non-magnetic Nd-Co phase (probably Nd₃Co) along grain boundaries were detected in sintered magnets. The coercivity and domain structures of the magnets with various mean grain size were analysed. It is shown that the coercivity decreases with increasing grain size and depends on the homogeneity of the distribution of the non-magnetic Nd-rich phase along grain boundaries. The corrosion resistance of the investigated magnets is also improved by the formation of a Nd-Co grain boundary phase, probably Nd₃Co and, generally, it increases with increasing mean grain size.