Infrared observations of a laser transmission welding process

Abstract

Laser transmission welding (LTW), a technique to join thermoplastic components, involves a laser beam passing through a laser-transmitting part and then being absorbed by the laser-absorbing part at the weld interface. To form a strong bond, it is important that the weld interface be exposed to sufficient heat to melt the polymer without degrading it. A lap-joint geometry was investigated and the interaction between a stationary laser beam and the plastic was observed using a thermal imaging camera. Several coatings on the surface observed by the camera were evaluated. Time histories and temperature distribution on the sample surface transverse to the joint interface were obtained. Soot-coated surface was found to heat up in response to the scattered laser light, providing means for estimation of the scattered light intensity.Laser transmission welding (LTW), a technique to join thermoplastic components, involves a laser beam passing through a laser-transmitting part and then being absorbed by the laser-absorbing part at the weld interface. To form a strong bond, it is important that the weld interface be exposed to sufficient heat to melt the polymer without degrading it. A lap-joint geometry was investigated and the interaction between a stationary laser beam and the plastic was observed using a thermal imaging camera. Several coatings on the surface observed by the camera were evaluated. Time histories and temperature distribution on the sample surface transverse to the joint interface were obtained. Soot-coated surface was found to heat up in response to the scattered laser light, providing means for estimation of the scattered light intensity.