Recycling wastepaper for reuse as new paper requires extensive cleaning and refinement of the fibers so the new product is free of inks, adhesives, and dyes.
Instead of turning old paper and cardboard into new paper, engineers at the University of Iowa are working to enhance the process of turning wastepaper into high-value fiber reinforced plastic (FRP).
Xuan Song, assistant professor of industrial and systems engineering and an Iowa Technology Institute faculty affiliate, along with Chao Wang, assistant professor of industrial and systems engineering, and H.S. Udaykumar, professor of mechanical engineering, have received nearly $1 million from REMADE institute. REMADE is a public-private partnership established by the United States Department of Energy formed to improve the speed and reduce the labor costs of remanufacturing recycled wastepaper.
The team will use additive manufacturing (AM) and artificial intelligence (AI) to improve the process of remanufacturing recycled materials into FRP composites.
“One of the challenges in additively manufacturing high-strength composites from recycled paper fibers is that the paper fibers vary greatly in density, size, and flexibility,” said Song. “A successful AM process would self-adjust in real time to accommodate the differing quality of recycled paper.”
The project will focus on developing a smart AM technology based on a composite-based AM (CBAM) process pioneered by industrial partner Impossible Objects, Inc. for producing high-strength FRP composites from recycled paper fibers, which can adapt to the material differences of the recycled paper via real-time sensing and data-calibrated physical modeling. Impossible Objects, Inc. is an AM equipment and materials company pioneering advancements in composite AM industries. Their CBAM process produces composites from various fibers, including carbon fiber and fiberglass, with stronger properties than other AM technologies and faster speed than traditional composites methods.
“What sets our team apart is our ability to leverage strengths in process development and modeling, composite fabrication, complex modeling, and multi-scale modeling,” said Song.
The team hopes that the outcome of their research will lead to more widespread adoption of turning wastepaper into high-value fiber reinforced plastic.
For more information on the project, visit the website.
For more information on REMADE visit the website.