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Designing Metamaterial Cells to Enrich Thermoforming 3D Printed Object for Post-Print Modification

Donghyeon Ko, Jee Bin Yim, Yujin Lee, Jaehoon Pyun, Woohun Lee

202127 citationsDOI

Abstract

In this paper, we present a metamaterial structure called thermoformable cells, TF-Cells, to enrich thermoforming for post-print modification. So far, thermoforming is limitedly applied for modifying a 3D printed object due to its low thermal conductivity. TF-Cells consists of beam arrays that affluently pass hot air and have high heat transference. Through heating the embedded TF-Cells of the printed object, users can modify not only the deeper area of the object surface but also its form factor. With a series of technical experiments, we investigated TF-Cells’ thermoformability, depending on their structure’s parameters, orientations, and heating conditions. Next, we present a series of compound cells consisting of TF-Cells and solid structure to adjust stiffness or reduce undesirable shape deformation. Adapting the results from the experiments, we built a simple tool for embedding TF-Cells into a 3D model. Using the tool, we implemented examples under contexts of mechanical fitting, ergonomic fitting, and aesthetic tuning.

Topics & Concepts

Thermoforming3d printedMetamaterialComputer scienceEngineering drawingObject (grammar)Materials scienceComputer graphics (images)EngineeringComposite materialOptoelectronicsManufacturing engineeringArtificial intelligenceAdditive Manufacturing and 3D Printing TechnologiesInteractive and Immersive DisplaysAdvanced Materials and Mechanics
Designing Metamaterial Cells to Enrich Thermoforming 3D Printed Object for Post-Print Modification | Litcius