Publication detail
New methods for monitoring laser welding process in the manufacture of solar absorbers
MRŇA, L. HORNÍK, P. KUBÍČEK, J.
English title
New methods for monitoring laser welding process in the manufacture of solar absorbers
Type
journal article in Scopus
Language
en
Original abstract
Laser welding is a modern method of fusion welding. Due to high welding speeds is necessary to use the machinery welding. This leads to the need for the detection and eventually the elimination of weld defects. Penetration laser welding is not accessible to direct observation and therefore can be monitored only indirectly. A new of possibility is the study of plasma radiation forming over the keyhole using autocorrelation analysis. The intensity of plasma radiation approaching deterministic noise, therefore, commonly used FFT analysis does not produce satisfying results. The autocorrelation function finds repetitive sequences in the signal, which are related to the oscillation of the weld pool. Changes and irregularities in the frequency of these oscillations indicate weld defects and overall stability of the welding process. A series of welding experiments were studied. After the experiments, the autocorrelation functions were evaluated. Changes in frequency during the weld were related to the geometric characteristics of the weld.
English abstract
Laser welding is a modern method of fusion welding. Due to high welding speeds is necessary to use the machinery welding. This leads to the need for the detection and eventually the elimination of weld defects. Penetration laser welding is not accessible to direct observation and therefore can be monitored only indirectly. A new of possibility is the study of plasma radiation forming over the keyhole using autocorrelation analysis. The intensity of plasma radiation approaching deterministic noise, therefore, commonly used FFT analysis does not produce satisfying results. The autocorrelation function finds repetitive sequences in the signal, which are related to the oscillation of the weld pool. Changes and irregularities in the frequency of these oscillations indicate weld defects and overall stability of the welding process. A series of welding experiments were studied. After the experiments, the autocorrelation functions were evaluated. Changes in frequency during the weld were related to the geometric characteristics of the weld.
Keywords in English
laser welding, process monitoring, autocorrelation function
Released
08.11.2016
Publisher
MM Science Journal
Location
Praha
ISSN
1803-1269
Volume
2016
Number
5
Pages from–to
1376–1381
Pages count
6
BIBTEX
@article{BUT170669,
author="Libor {Mrňa} and Petr {Horník} and Jaroslav {Kubíček},
title="New methods for monitoring laser welding process in the manufacture of solar absorbers",
year="2016",
volume="2016",
number="5",
month="November",
pages="1376--1381",
publisher="MM Science Journal",
address="Praha",
issn="1803-1269"
}