The University of Maine has introduced a new giant 3D printer capable of constructing objects as large as a house, setting a new record for the world’s largest polymer 3D printer. This printer, known as the Factory of the Future 1.0 (FoF 1.0), boasts a printing capacity four times larger than its predecessor, producing items up to 96 feet (29 meters) extended—about the length of a blue whale.
Despite this technological marvel, experts like Dr. Eujin Pei, a specialist in additive manufacturing at Brunel University, believe that traditional brick-and-mortar homes will remain predominant. Large-scale 3D printers are expected to be utilized more for manufacturing house components or specialized applications such as historical restoration or rapid construction following natural disasters.
Dr Pei highlights the potential of 3D printing to produce decorative elements or partially repair historic buildings; the technology could be pivotal in quickly providing parts for buildings damaged by natural events.
The University of Maine envisions the FoF 1.0 contributing to various projects, including affordable housing, bridges, boats, and even wind turbines. It can print up to 500 pounds (227 kg) of material per hour. While traditional 3D printers commonly use plastic, the university aims to integrate more sustainable and recycled polymers into their processes.
Residual wood from Maine’s extensive sawmills is an interesting potential material source for the printer. This aligns with environmental goals, although Dr Pei notes that such materials, while eco-friendly, may not be as durable as traditional construction materials.
3D printing significantly reduces time and material waste, using only the necessary materials for each project. Nevertheless, Dr. Pei points out that there are environmental downsides, such as the potential for material contamination that can hinder recycling efforts.
Designed with support from the US military, the printer incorporates advanced technology, including sensors, high-performance computing, and artificial intelligence, to enhance the manufacturing of large-scale products. Habib Dagher, head of the university’s Advanced Structures and Composites Center, emphasizes the integration of these technologies in the FoF 1.0.
While the university’s previous printer model created a prototype bungalow, the new FoF 1.0 aims to address housing shortages in Maine more effectively. It continues to use wood in its printing processes, and the two printers can operate simultaneously on the same project.
3D printing holds promise for revolutionizing both large and small-scale manufacturing across various sectors, from aerospace to biomedical applications to creative arts. However, the technology also poses challenges, including its misuse in criminal activities, such as producing weapons—a concern highlighted by recent legal cases involving 3D-printed firearms in the UK.