Classification of transfer modes in gas metal arc welding using acoustic signal analysis

Cullen, M; Zhao, S; Ji, J; Qiu, X

Classification of transfer modes in gas metal arc welding using acoustic signal analysis

Cullen, M Zhao, S

Ji, J

Qiu, X

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Publisher:: Springer
Publication Type:: Journal Article
Citation:: International Journal of Advanced Manufacturing Technology, 2021, 115, (9-10), pp. 3089-3104
Issue Date:: 2021-06-04

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Field	Value	Language
dc.contributor.author	Cullen, M
dc.contributor.author	Zhao, S https://orcid.org/0000-0002-6261-8864
dc.contributor.author	Ji, J https://orcid.org/0000-0003-3280-5463
dc.contributor.author	Qiu, X https://orcid.org/0000-0002-5181-1220
dc.date.accessioned	2023-03-30T05:26:40Z
dc.date.available	2023-03-30T05:26:40Z
dc.date.issued	2021-06-04
dc.identifier.citation	International Journal of Advanced Manufacturing Technology, 2021, 115, (9-10), pp. 3089-3104
dc.identifier.issn	0178-0026
dc.identifier.issn	1433-3015
dc.identifier.uri	http://hdl.handle.net/10453/168843
dc.description.abstract	Gas metal arc welding (GMAW) is a welding process in which an electric arc is formed between a wire electrode and a metal workpiece alongside a shielding gas to protect the arc from contaminants. There are several ways in which the molten electrode droplet can be transferred to the weld pool known as metal transfer modes. Identifying the metal transfer mode automatically is essential to monitor and control the welding process, especially in automated processes employed in modern Industry 4.0 manufacturing lines. However, limited research on this topic has been found in literature. This paper explores the automatic classification of metal transfer modes in GMAW based on machine learning techniques with various signals from the welding process, including acoustics, current, voltage and gas flow rate signals. Time and frequency domain features are first extracted from these signals and are used in a support vector machine classifier to detect the metal transfer modes. A feature selection algorithm is proposed to improve the prediction rate from 80 to 99% when all four signals are utilised. When only the non-intrusive acoustic signal is used, the prediction rates with and without the proposed feature selection algorithm are approximately 96% and 81%, respectively. The high prediction rate demonstrates the feasibility and promising accuracy of the acoustic signal–based classification method for future smart welding technology with real-time adaptive feedback control of the welding process.
dc.language	English
dc.publisher	Springer
dc.relation	Automation Acoustics P/L
dc.relation	http://purl.org/au-research/grants/arc/LP160100616
dc.relation.ispartof	International Journal of Advanced Manufacturing Technology
dc.relation.isbasedon	10.1007/s00170-021-07305-x
dc.rights	info:eu-repo/semantics/closedAccess
dc.subject	01 Mathematical Sciences, 08 Information and Computing Sciences, 09 Engineering
dc.subject.classification	Industrial Engineering & Automation
dc.title	Classification of transfer modes in gas metal arc welding using acoustic signal analysis
dc.type	Journal Article
utslib.citation.volume	115
utslib.for	01 Mathematical Sciences
utslib.for	08 Information and Computing Sciences
utslib.for	09 Engineering
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology/School of Mechanical and Mechatronic Engineering
utslib.copyright.status	closed_access	*
pubs.consider-herdc	false
dc.date.updated	2023-03-30T05:26:39Z
pubs.issue	9-10
pubs.publication-status	Published
pubs.volume	115
utslib.citation.issue	9-10

Abstract:

Gas metal arc welding (GMAW) is a welding process in which an electric arc is formed between a wire electrode and a metal workpiece alongside a shielding gas to protect the arc from contaminants. There are several ways in which the molten electrode droplet can be transferred to the weld pool known as metal transfer modes. Identifying the metal transfer mode automatically is essential to monitor and control the welding process, especially in automated processes employed in modern Industry 4.0 manufacturing lines. However, limited research on this topic has been found in literature. This paper explores the automatic classification of metal transfer modes in GMAW based on machine learning techniques with various signals from the welding process, including acoustics, current, voltage and gas flow rate signals. Time and frequency domain features are first extracted from these signals and are used in a support vector machine classifier to detect the metal transfer modes. A feature selection algorithm is proposed to improve the prediction rate from 80 to 99% when all four signals are utilised. When only the non-intrusive acoustic signal is used, the prediction rates with and without the proposed feature selection algorithm are approximately 96% and 81%, respectively. The high prediction rate demonstrates the feasibility and promising accuracy of the acoustic signal–based classification method for future smart welding technology with real-time adaptive feedback control of the welding process.

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http://hdl.handle.net/10453/168843