High resolution projection stereolithography via process optimization
In this project, I developed a novel method to overcome the fundamental resolution limits in projection stereolithography (SLA) 3D printing, enabling the fabrication of features smaller than a single hardware pixel. Impact: This work redefines the print capabilities of projection SLA. The technique enables the direct printing of complex, assembly-free components from both polymers and ceramics with unprecedented precision, eliminates the need for post-processing and assembly, and makes previously impossible designs (such as preassembled gearsets) achievable. Publications related to this project: Coming soon.
Apr 1, 2024
In-situ monitoring of stereolithography - printing defects and dimension mismatch
This project focuses on developing in-situ monitoring methods for Stereolithography (SLA) 3D printing, with an emphasis on porosity detection and 3D reconstruction of printed part. We’re on track to publish the first paper of this project by the end of 2025, so stay tuned! Publications related to this project: Coming soon.
Aug 1, 2023