Investigation of the Shape-Memory Properties of 3D Printed PLA Structures with Different Infills

Polylactic acid (PLA) belongs to the few thermoplastic polymers that are derived from renewable resources such as corn starch or sugar cane. PLA is often used in 3D printing by fused deposition modeling (FDM) as it is relatively easy to print, does not show warping and can be printed without a closed building chamber. On the other hand, PLA has interesting mechanical properties which are influenced by the printing parameters and geometries. Here we present shape-memory properties of PLA cubes with different infill patterns and percentages, extending the research reported before in a conference paper. We investigate the material response under defined quasi-static load as well as the possibility to restore the original 3D printed shape. The quasi-static flexural properties are linked to the porosity and the infill structure of the samples under investigation as well as to the numbers of closed top layers, examined optically and by simulations. Our results underline the importance of designing the infill patterns carefully to develop samples with desired mechanical properties.

Automated summary

This paper introduces the shape-memory properties of PLA cubes with different infill patterns and percentages, along with exploring its material response under defined quasi-static load and the possibility of restoring the original 3D printed shape. The importance of carefully designing infill patterns to develop samples with desired mechanical properties is underlined by the results presented in this study.