An intelligent Model for Defect Prediction in Spot Welding

There are more than 30% defect in the spot welding of cars and randomly chosen cars are performed ultrasound or destructive testing.  This makes the process very vulnerable and unpredictable. This results in huge reworks, productivity, monetary loss and negative impact on brand name.  This research...

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Bibliographic Details
Published in:Turkish journal of computer and mathematics education 2021-04, Vol.12 (3), p.3991-4002
Main Authors: Paulraj, Christopher, Raj, V Joseph
Format: Article
Language:English
Subjects:
Automobiles
Brand names
Decision making
Defects
Destructive testing
Forecasting
Machine learning
Mathematical models
Methodology
Parameter identification
Prediction models
Predictions
Process parameters
Productivity
Scientific papers
Spot welding
Welding
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Summary:There are more than 30% defect in the spot welding of cars and randomly chosen cars are performed ultrasound or destructive testing.  This makes the process very vulnerable and unpredictable. This results in huge reworks, productivity, monetary loss and negative impact on brand name.  This research paper presents the prediction of defect using machine learning models and as well forecasting models in spot welding through optimized methodology.  This defect prediction model is useful in determining the defects that are likely to occur during spot welding. The forecasting model for process parameters data pattern, trends, etc.  helps to identify the link between predicted defects.  This model can evolve and improve over time by considering data from previous phases and history data of the spot welding cycle. Predicting the defects before testing begins improves the quality of the product being delivered and helps in planning and decision making for future spot welding. The optimized defect prediction methodology in spot welding reduces the defects and predicted sample for testing which reduces the rework and increase the productivity, monetary value and brand name. The experimental result shows that the spot-welding methodology has shown improvement over existing spot-welding method. Please see the six-sigma (Fig:13) chart for before and after improvement curve and value.
ISSN:1309-4653
1309-4653
DOI:10.17762/turcomat.v12i3.1689