Machine vision assisted micro-filament detection for real-time monitoring of electrohydrodynamic inkjet printing

摘要

Electrohydrodynamic inkjet printing (e-jet printing) is one type of microano scale 3D printing technique that automatically deposits functional materials to form 3D structures on the substrate. Unlike traditional thermal or acoustic inkjet printing, e-jet printing utilizes high electrical forces that enable the ink to overcome surface tension at the tip of micro nozzles. The droplets and filaments coming out from the nozzle have dimensions much smaller than the dimensions of the nozzle, thus printing geometries in micro and nano scale. E-jet printing process parameters could affect the final quality attributes of fabricated constructs. Currently, assessment of these critical geometries and attributes must be performed offline using optical microscopy or scanning electron microscopy. This drawback affected the efficiency of microano printing from translation into industrial practice. The research in this paper focused on fundamental research to enablein-situmonitoring of e-jet printing using a real-time images characterization technique. In conclusion, the study in this paper investigated using machine vision for real-time monitoring of microano scale 3D printing. The method worked well for micro-filament detection in e-jet printing, and may be further implemented into feedback control system of complicated e-jet printing. However, the optical machine vision was limited to micro scale detection. One of the future research topic is to develop nano scalein-situdetection mechanism for e-jet printing.