Advanced Structures & Composites Center

Published: 2024

Publication Name: Journal of Composites for Construction

Publication URL: https://doi.org/10.1061/JCCOF2.CCENG-4758

Abstract:

The use of large-format three-dimensional (3D) printed thermoplastic composites as formworks for precast concrete structures has emerged as a cost-effective solution addressing challenges related to skilled labor shortages and enabling design optimization. This research work investigates the technical feasibility of recycling large-format 3D printed polymer composite formworks. Thermomechanical recycling of 3D printed formworks was implemented and the recycled polymer composite feedstock was used to 3D print new formworks. Two commonly used short-fiber reinforced polymer composite materials were evaluated: one petroleum-based material, carbon fiber–filled acrylonitrile butadiene styrene (CF-ABS), and one biobased material, wood flour–filled amorphous polylactic acid (WF-aPLA). Mechanical properties of 3D printed specimens were characterized to evaluate their suitability as 3D printed formworks. Physical and thermal characterization methods were used to understand the change in thermal and mechanical properties of the thermoplastic polymers due to the recycling process. The study also employed similar methods to assess the potential contamination of polymer composites with cementitious materials. Results revealed that high-pressure water washing was effective in removing cementitious material from the formwork surface, and the recycled material did not show significant contamination. Thermomechanical recycling was shown to reduce the fiber length of reinforcing fibers and the molecular weight of the polymer material. The reduction in fiber length and the molecular weight of the material results in the reduction of material viscosity. The observed reductions in viscosity have the potential to limit the number of recycling iterations. However, thermal stability was maintained throughout all processing levels. In addition, the mechanical performance of the WF-aPLA material system was observed to increase after the recycling process. However, the mechanical performance of the CF-ABS material system was observed to decrease after recycling. Recycled 3D printed formworks were found to work effectively, albeit some reduction in mechanical properties of recycled formworks was observed.