Journal
APPLIED SCIENCES-BASEL
Volume 12, Issue 5, Pages -Publisher
MDPI
DOI: 10.3390/app12052718
Keywords
laser transmission welding; transparent polymers; optical coherence tomography; process monitoring; image processing
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Optical coherence tomography is a valuable tool for inspecting weld seams in polymer parts and has great potential for process monitoring in the optical and medical industries. This study proposes a novel method using optical coherence tomography to determine the location and size of weld seams, achieving accurate and reliable results.
Featured Application Optical coherence tomography enables the three-dimensional inspection of internal structures like the weld seam in polymer parts and has excellent prerequisites for process monitoring in the optical and medical industries. Quality and reliability are of the utmost importance for manufacturing in the optical and medical industries. Absorber-free laser transmission welding enables the precise joining of identical polymers without additives or adhesives and is well-suited to meet the demands of the aforementioned industries. To attain sufficient absorption of laser energy without absorbent additives, thulium fiber lasers, which emit in the polymers' intrinsic absorption spectrum, are used. Focusing the laser beam with a high numerical aperture provides significant intensity gradients inside the workpiece and enables selective fusing of the internal joining zone without affecting the surface of the device. Because seam size and position are crucial, the high-quality requirements demand internal weld seam monitoring. In this work, we propose a novel method to determine weld seam location and size using optical coherence tomography. Changes in optical material properties because of melting and re-solidification during welding allow for weld seam differentiation from the injection-molded base material. Automatic processing of the optical coherence tomography data enables the identification and measurement of the weld seam geometry. The results from our technique are consistent with microscopic images of microtome sections and demonstrate that weld seam localization in polyamide 6 is possible with an accuracy better than a tenth of a millimeter.
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