Automated laser-based glass fusing with powder additive

Owing to their chemical resistance, fused silica and borosilicate are used for many applications in the chemical and medical industries. The flat or hollow glass components are welded to complex devices. State of the art is a manual process using a gas flame. For the welding of complex quartz and borosilicate glass devices, the manual process must be performed by an experienced welder. In addition, the gas flame has a low energy efficiency, affects the chemical composition of the glass and only allows a limited level of automation. This study employs a CO2 laser beam source for the glass joining process to enable a high automation level. During the joining process, the laser power is controlled by non-contact temperature measurement, such that a constant viscosity is maintained throughout the welding process by stabilizing the glass temperature. The glass powder supplied is used as filler material to bridge gaps in complex geometric joining applications. The results prove that applying the glass powder le...