Due to the growing problem of environmental pollution and waste disposal in recent years, emphasis is being placed on the zero-waste concept. More and more industrial enterprises are replacing the concept of linear economy with circular economy to solve the problem of waste disposal and focus on waste reuse. In recent years, used coffee grounds have attracted a lot of attention because they are produced in large quantities every year and can cause environmental problems if not disposed of properly. Coffee is one of the most consumed beverages in the world. Therefore, developing technologies to reuse coffee grounds for functional purposes would help convert this large amount of waste into new resources. This research aims to use used coffee grounds as a filler with minimal preparation processes for the production of composite materials with polylactide (PLA) as a matrix. Biodegradable PLA is an excellent choice as a matrix because it is a sustainable alternative to petrochemical products, can be produced from renewable energy sources, and is easily obtained by microbial fermentation. The goal of this research is to convert used spent coffee grounds into a new resource to reduce the cost of PLA and ultimately reduce environmental risks. In this work, composites of PLA and spent coffee grounds were produced by mixing in a Brabender kneader and pressing in a hydraulic press. The mass fraction of spent coffee grounds in the composite was 5, 10, 15, and 20 wt. %. The thermal properties of the PLA/spent coffee grounds composites were tested using differential scanning calorimetry (DSC) and thermogravimetric analysis (TG). Particle size and particle size distribution were investigated using the laser diffraction method, as well as water absorption. The thermal property results showed that spent coffee grounds had no effect on the phase transitions of the PLA matrix, while it decreased the thermal stability. The water absorption test showed that the higher the percentage of spent coffee grounds, the higher the water absorption of the PLA/spent coffee grounds composite, which is due to the markedly hydrophilic character of the filler.