Software-first digital fabrication workflows are often at odds with material-driven approaches to design. Material-driven design is especially critical in manual ceramics, where the craftsperson shapes the form through hands-on engagement. We present the Craft-Aligned Scanner (CAS), a 3D scanning and clay-3D printing system that enables practitioners to design for digital fabrication through traditional pottery techniques. The CAS augments a pottery wheel that has 3D printing capabilities with a precision distance sensor on a vertically oriented linear axis. By increasing the height of the sensor as the wheel turns, we directly synthesize a 3D spiralized toolpath from the geometry of the object on the wheel, enabling the craftsperson to immediately transition from manual fabrication to 3D printing without leaving the tool. We develop new digital fabrication workflows with CAS to augment scanned forms with functional features and add both procedurally and real-time-generated surface textures. CAS demonstrates how 3D printers can support material-first digital fabrication design without foregoing the expressive possibilities of software-based design.
https://doi.org/10.1145/3654777.3676385
ACM Symposium on User Interface Software and Technology