Laser beam welding significantly outperforms conventional
joining techniques in terms of flexibility and
productivity. The process benefits in particular from
the highly focused energy and thus from a well-defined
heat input. The high intensities of brilliant laser radiation,
however, induce very dynamic effects and complex
processes within the interaction zone. The high
process dynamics require a consequent and reliable
quality assurance to ensure the required weld quality.
A novel sensor concept for laser material processing
based on Optical Coherence Tomography (OCT) was
used to measure the capillary depth of the keyhole
during deep penetration welding. The OCT signal was
preprocessed, analyzed by means of statistical methods
and compared with analyses of the quality of the weld
seams. A Machine Learning approach could be utilized
to reveal correlations between the weld depth signal
and typical weld seam characteristics, underlining the
high level of information contained in the OCT signal
about characteristic process phenomena that affect the
weld seam quality.
In order to obtain useful information from the process
data, the process of Knowledge Discovery in Databases
(KDD) was considered holistically. For this
purpose, all steps, including data acquisition, data
preprocessing, data mining and data interpretation,
were considered. Taking into account effects that influence
the measurement and characteristic process
phenomena in laser beam welding, a procedure was
developed with which valid predictions can be drawn
about the weld seam properties even with a small
amount of training data.
«
Laser beam welding significantly outperforms conventional
joining techniques in terms of flexibility and
productivity. The process benefits in particular from
the highly focused energy and thus from a well-defined
heat input. The high intensities of brilliant laser radiation,
however, induce very dynamic effects and complex
processes within the interaction zone. The high
process dynamics require a consequent and reliable
quality assurance to ensure the required weld quality.
A novel sen...
»
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