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Online pyrometry for weld seam localization in absorber-free laser transmission welding of transparent polymers

  • Production of optical and medical devices makes high demands on cleanliness, precision, visual appearance and reliability. Advantages of laser transmission welding – contactless input of energy, high precision, no adhesives and no particle formation – can be fully exploited for this use. For absorber-free welding, lasers emitting in the polymers’ intrinsic absorption spectrum between 1.6 μm and 2 μm are used. Focusing the laser beam with high NA provides large intensity gradients inside the specimen and enables selective fusing of the joining zone without affecting the surface. Since a molten upper surface leads to visible and palpable irregularities and causes warpage, the verticalexpansion of the weld seam is crucial. To meet the high quality and reliability required in the medical and optical industry, online monitoring of the seam is necessary. The aim of this work is the localization and evaluation of the weld seam using pyrometry. First, the emitted thermal radiation is computed, enabling signal analysis regarding origin and spectrum. Thus, assessment of measurement spectrum and forecast of the signal in dependence on seam shape and position is possible. Finally, welding tests with Topas 8007-04 are performed at 200 mm/s feed rate and monitored with 100 kHz. The comparison of tracked data with thin-cuts demonstrates that weld seam localization by pyrometry is possible, enabling online assessment of the process.

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Metadaten
Author:Frederik MaiwaldORCiD, Stephan Englmaier, Stefan HierlGND
DOI:https://doi.org/10.2961/jlmn.2021.01.2002
ISSN:1880-0688
Parent Title (English):Journal of Laser Micro/Nanoengineering
Publisher:Japan Laser Processing Society
Document Type:Article
Language:English
Year of first Publication:2021
Release Date:2021/01/25
GND Keyword:Laserdurchstrahlschweissen; Kunststoff; Transparenz; Schweißnaht; Wärmestrahlung; Pyrometrie; Prozessüberwachung
Volume:Vol. 16
Issue:1
First Page:8
Last Page:13
Institutes:Fakultät Maschinenbau
Fakultät Maschinenbau / Labor Laser-Materialbearbeitung (LMP)
Begutachtungsstatus:peer-reviewed
OpenAccess Publikationsweg:Gold Open Access- Erstveröffentlichung in einem/als Open-Access-Medium
research focus:Produktion und Systeme