Paper ID: 2312.01131
FDM Printing: a Fabrication Method for Fluidic Soft Circuits?
Savita V. Kendre, Lehong Wang, Ethan Wilke, Nicholas Pacheco, Loris Fichera, Markus P. Nemitz
Existing fluidic soft logic gates for the control of soft robots either rely on extensive manual fabrication processes or expensive printing techniques. In our work, we explore Fused Deposition Modeling for creating fully 3D printed fluidic logic gates. We print a soft bistable valve from thermoplastic polyurethane using a desktop FDM printer. We introduce a new printing nozzle for extruding tubing. Our fabrication strategy reduces the production time of soft bistable valves from 27 hours with replica molding to 3 hours with a FDM printer. Our rapid and cost-effective fabrication process for fluidic logic gates seeks to democratize fluidic circuitry for the control of soft robots.
Submitted: Dec 2, 2023