Project 2.18 Summary:
Large-scale thermoplastic composite extrusion-based 3D printing has been used in research labs and is moving into industry. One significant use of large-scale 3D printing has been to make forms for manufacturing precast concrete parts. Once the forms have been used for casting concrete parts, there is an opportunity to reuse the material and recycle the thermoplastic composite. Ideally, the 3D printed thermoplastic composite can be recycled into feedstock pellets that can be used again for 3D printing newer parts. However, the process of recycling 3D printed concrete forms is not well-established. Efficient ways of removing debris, cutting the 3D printed parts into smaller pieces, and pelletizing need to be figured out. The degradation in material properties with each recycling needs to be characterized and if necessary, a suitable ratio of a mix between virgin and recycled polymer needs to be determined. The cost of recycling needs to be evaluated and compared to the cost of the 3D-printed material.
Principal Investigator:
Dr. Roberto A. Lopez-Anido
Institution:
University of Maine
Co-PIs:
Dr. Sunil Bhandari
Dr. Lu Wang
Project Type:
Base-Funded Research
Start Date:
01/01/2022
Project Cost:
$328,615
Project Status:
In Progress
End Date:
08/31/2024
Agency ID:
69A3551847101
Sponsors:
University Transportation Centers Program
University of Maine
Implementation of Research Outcomes:
This project is in its initial research phase. Implementation of Research outcomes will be reported upon completion of initial research.
Impacts and Benefits of Implementation:
This project is in its initial research phase. Impacts and benefits of the research will be reported after the implementation phase.
Related Links:
Coming Soon
Downloadable Documents