Effect of post-process treatments on mechanical properties and surface characteristics of 3D printed short glass fiber reinforced PLA/TPU using the FDM process

The extrusion-based fused deposition modeling (FDM) has become the most frequently used additive manufacturing method because of its shorten production time and cost. However, low surface quality remains a limitation to meet the regulatory standards set by traditional manufacturing, which requires post-processing to improve it. In this work, annealing and acetone vapor treatments are applied to short glass fiber reinforced PLA/TPU composites parts obtained by FDM, respectively. Their effects on the surface finishing, dimensional accuracy and mechanical properties of FDM parts using different post-processing methods are compared. The result shows that the annealing treatment dramatically improves the surface finish, but can reduce the dimensional accuracy and ductility of the FDM parts. Better ductility and dimensional accuracy but lower tensile strength are obtained by using acetone vapor treatment.