Poly lactic acid (PLA), a lactate monomer extracted from corn starch, is the most promising biodegradable material. Although its application is limited due to its poor mechanical properties, these mechanical properties can be improved by super-structure generation. This study investigates the relationship between the crystalline and stretch characteristics of PLA. First, a PLA sheet is produced by injection molding, then the sheet is annealed. To obtain different degrees of crystallinity of a PLA sheet for stretch processing, annealing time must be controlled. Crystallinity is measured by Differential Scanning Calorimeter (DSC). This study also investigates the effect of annealing time on the degree of crystallinity of PLA, the effect of crystallinity on the maximum stretch ratio, and the relationship between stretch direction and crystallinity. Experimental results show that different annealing times create different degrees of crystallinity. As the degree of crystallinity increases, the ductility and the maximum stretch ratio decrease. The crystallinity of the stretch direction perpendicular to the crystal decreases more than in the stretch direction parallel to the crystal. The stretch ratio in the stretch direction perpendicular to the crystal is less than that in the stretch direction parallel to the crystal. Overall, it must be controlled in the low crystallinity when producing PLA thin film. And the stretch direction must along the direction of crystal orientation, then generate the super-structure by annealing after the stretch.