Availability, renewability, biodegradability, and excellent mechanical strength of lignin result in the growing interest in using it for commodity polymer development. Therefore, several attempts have been made and reported in the literatures to develop polymer from it. Despite several attempts, factors such as self-aggregation, low reactivity, and solubility still have limited the large-scale application of lignin. Therefore, to control these factors, here in this work, we have modified lignin with a reactive functional molecule Epichlorohydrin (ECH) to prepare epoxidized lignin (EL). Later, the copolymer, Lignin-Polylactic acid (Lig-PLA) was synthesized by graft polymerization of Lactic acid (LA) on EL. Synthesized EL, and Lig-PLA copolymer were characterized through FT-IR, XPS, and Solid-state ¹³C NMR analysis. Higher weight (wt) loss along with high rate of crystallinity from TGA and XRD analysis confirmed increased grafting of LA onto EL while synthesizing copolymers of Lig-PLA with increased amount of LA. The hydraulic hot press technique was used to prepare 250 micron thin Lig-PLA copolymer film. Lig-PLA copolymers prepared with LA ≥ 50 wt% produced polymer films with very good flexibility which confirms that a flexible film can be prepared with high lignin content from this method.