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I-Corps: Axial Lattice Extrusion Technology

$50,000FY2020TIPNSF

Rochester Institute Of Tech, Rochester NY

Investigators

Abstract

The broader impact/commercial potential of this I-Corps project is the development of a carbon-fiber composite 3D printing process that produces high-strength, lightweight components. While 3D printing with plastics has existed mostly as a prototyping tool thus far, its use can be expanded to enable on-demand manufacturing and custom industrial lightweight structures. The proposed technology will address limitations of current polymer 3D printing processes (extremely slow speed, poor mechanical properties, high material costs) to improve manufacturing economics; it can be used for industrial-grade machines and hobbyists alike. This I-Corps project is based on the development of an axial lattice extrusion (ALE) 3D printing technology. Conventional 3D printing processes make parts by repeatedly printing one planar layer of material on top of another. For production of high-strength, lightweight engineered cellular structures, the conventional 3D printing approach is extremely inefficient (slow) and produces very weak structures. In contrast, the ALE process allows fabrication of high-strength, lightweight-engineered lattice structures using non-planar 3D toolpaths. This is made possible using a combination of computational geometry, digital process controls with selective material cooling, and advanced materials. This enables parts to be made in a fraction of the time needed with conventional 3D printing while using up to 50% less material. This lowers costs while maintaining strength for end-use applications. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

View original record on NSF Award Search →