2024-10-09 オランダ・デルフト工科大学(TUDelft)
Speed-modulated ironing enables a large range of colour shades and high-resolution images on prints.
<関連情報>
- https://www.tudelft.nl/en/2024/ide/october/new-3d-printing-technique-by-tu-delft-and-mit-delivers-high-resolution-textures-from-a-single-material
- https://dl.acm.org/doi/10.1145/3654777.3676456
スピード調節アイロン: 単一材料3Dプリントにおける高解像度の陰影とテクスチャ勾配 Speed-Modulated Ironing: High-Resolution Shade and Texture Gradients in Single-Material 3D Printing
Mehmet Ozdemir, Marwa AlAlawi, Mustafa Doga Dogan, Jose Francisco Martinez Castro, Stefanie Mueller, Zjenja Doubrovski
UIST ’24: Proceedings of the 37th Annual ACM Symposium on User Interface Software and Technology Published: 11 October 2024
DOI:https://doi.org/10.1145/3654777.3676456
Abstract
We present Speed-Modulated Ironing, a new fabrication method for programming visual and tactile properties in single-material 3D printing. We use one nozzle to 3D print and a second nozzle to reheat printed areas at varying speeds, controlling the material’s temperature-response. The rapid adjustments of speed allow for fine-grained reheating, enabling high-resolution color and texture variations. We implemented our method in a tool that allows users to assign desired properties to 3D models and creates corresponding 3D printing instructions. We demonstrate our method with three temperature-responsive materials: a foaming filament, a filament with wood fibers, and a filament with cork particles. These filaments respond to temperature by changing color, roughness, transparency, and gloss. Our technical evaluation reveals the capabilities of our method in achieving sufficient resolution and color shade range that allows surface details such as small text, photos, and QR codes on 3D-printed objects. Finally, we provide application examples demonstrating the new design capabilities enabled by Speed-Modulated Ironing.