The Zr-Ti-Cu-Nd metallic glass ribbons with different amounts of Nd were fabricated by melt spinning. The ribbons were used to examine the microstructure and the mechanical properties. Since the positive mixing enthalpy between some elements, the phenomenon of liquid phase separation occurred and formed the metallic glass composites. Specifically, Nd separated from the Zr/Ti based metallic glass matrix and precipitated with Cu during the cooling process. In addition to Nd, the distribution of Cu was nonuniform because its mixing enthalpies with Nd and Zr/Ti were different. This was verified by energy-dispersive X-ray spectroscopy. The images from scanning electron microscopy showed that the microstructure was inhomogeneous across the thickness of the ribbon because of the different cooling rates. By examining the hardness, the ribbons were softer in the middle and harder on both surface sides because of the different distributions of precipitates. Using modulus mapping, the matrix showed the higher storage modulus and the precipitates showed the higher loss modulus in contract. The micropillar compression tests showed that the samples with more additive Nd contents presented larger plasticity which proved that the soft second phase in these composites was effective in plasticity enhancements.