Kerf characteristics during CO 2 laser cutting of polymeric materials: Experimental investigation and machine learning-based prediction
This study uses advanced machine learning approaches to predict the kerf open deviation (KOD) when a CO2 laser is used to cut polymeric materials. Four polymeric materials, namely polyethylene (PE), polymethyl methacrylate (PMMA), polypropylene (PP), and polyvinyl chloride (PVC), were cut under the...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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2024
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| Online Access: | http://t2r2.star.titech.ac.jp/cgi-bin/publicationinfo.cgi?q_publication_content_number=CTT100921131 |
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fttokyotech:oai:t2r2.star.titech.ac.jp:50708354 |
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fttokyotech:oai:t2r2.star.titech.ac.jp:50708354 2024-09-15T18:11:10+00:00 Kerf characteristics during CO 2 laser cutting of polymeric materials: Experimental investigation and machine learning-based prediction Abdulsalam M. Alhawsawi Essam B. Moustafa 藤井学 Manabu Fujii Essam M. Banoqitah Ammar Elsheikh 2024-07-30 http://t2r2.star.titech.ac.jp/cgi-bin/publicationinfo.cgi?q_publication_content_number=CTT100921131 eng eng http://t2r2.star.titech.ac.jp/cgi-bin/publicationinfo.cgi?q_publication_content_number=CTT100921131 oai:t2r2.star.titech.ac.jp:50708354 Journal Article 2024 fttokyotech 2024-08-05T23:36:09Z This study uses advanced machine learning approaches to predict the kerf open deviation (KOD) when a CO2 laser is used to cut polymeric materials. Four polymeric materials, namely polyethylene (PE), polymethyl methacrylate (PMMA), polypropylene (PP), and polyvinyl chloride (PVC), were cut under the same conditions. The process control factors were the power of the laser beam (80?140 W) and cutting speed (1?6 mm/s), while sheet thickness, standoff distance, and gas pressure were kept constant during experiments. KOD between the upper and lower opens of the kerf was the process response. KOD was predicted using three machine learning models, namely a conventional artificial neural network (ANN), a hybrid neural network?humpback whale optimizer (HWO-ANN), and a hybrid neural network?particle swarm optimizer (PSO-ANN). Experimental data for all polymeric materials were employed to train and test all models. The hybrid neural network?humpback whale optimizer model outperformed other models to predict KOD for all cut materials. The root-mean-square error between predicted and experimental data was 0.349?0.627 ?m, 0.085?0.242 ?m, and 0.023?0.079 ?m for conventional neural network, neural network?particle swarm model, and neural network?humpback whale model, respectively. Article in Journal/Newspaper Humpback Whale T2R2 (Tokyo Tech Research Repository) |
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Open Polar |
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T2R2 (Tokyo Tech Research Repository) |
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fttokyotech |
| language |
English |
| description |
This study uses advanced machine learning approaches to predict the kerf open deviation (KOD) when a CO2 laser is used to cut polymeric materials. Four polymeric materials, namely polyethylene (PE), polymethyl methacrylate (PMMA), polypropylene (PP), and polyvinyl chloride (PVC), were cut under the same conditions. The process control factors were the power of the laser beam (80?140 W) and cutting speed (1?6 mm/s), while sheet thickness, standoff distance, and gas pressure were kept constant during experiments. KOD between the upper and lower opens of the kerf was the process response. KOD was predicted using three machine learning models, namely a conventional artificial neural network (ANN), a hybrid neural network?humpback whale optimizer (HWO-ANN), and a hybrid neural network?particle swarm optimizer (PSO-ANN). Experimental data for all polymeric materials were employed to train and test all models. The hybrid neural network?humpback whale optimizer model outperformed other models to predict KOD for all cut materials. The root-mean-square error between predicted and experimental data was 0.349?0.627 ?m, 0.085?0.242 ?m, and 0.023?0.079 ?m for conventional neural network, neural network?particle swarm model, and neural network?humpback whale model, respectively. |
| format |
Article in Journal/Newspaper |
| author |
Abdulsalam M. Alhawsawi Essam B. Moustafa 藤井学 Manabu Fujii Essam M. Banoqitah Ammar Elsheikh |
| spellingShingle |
Abdulsalam M. Alhawsawi Essam B. Moustafa 藤井学 Manabu Fujii Essam M. Banoqitah Ammar Elsheikh Kerf characteristics during CO 2 laser cutting of polymeric materials: Experimental investigation and machine learning-based prediction |
| author_facet |
Abdulsalam M. Alhawsawi Essam B. Moustafa 藤井学 Manabu Fujii Essam M. Banoqitah Ammar Elsheikh |
| author_sort |
Abdulsalam M. Alhawsawi |
| title |
Kerf characteristics during CO 2 laser cutting of polymeric materials: Experimental investigation and machine learning-based prediction |
| title_short |
Kerf characteristics during CO 2 laser cutting of polymeric materials: Experimental investigation and machine learning-based prediction |
| title_full |
Kerf characteristics during CO 2 laser cutting of polymeric materials: Experimental investigation and machine learning-based prediction |
| title_fullStr |
Kerf characteristics during CO 2 laser cutting of polymeric materials: Experimental investigation and machine learning-based prediction |
| title_full_unstemmed |
Kerf characteristics during CO 2 laser cutting of polymeric materials: Experimental investigation and machine learning-based prediction |
| title_sort |
kerf characteristics during co 2 laser cutting of polymeric materials: experimental investigation and machine learning-based prediction |
| publishDate |
2024 |
| url |
http://t2r2.star.titech.ac.jp/cgi-bin/publicationinfo.cgi?q_publication_content_number=CTT100921131 |
| genre |
Humpback Whale |
| genre_facet |
Humpback Whale |
| op_relation |
http://t2r2.star.titech.ac.jp/cgi-bin/publicationinfo.cgi?q_publication_content_number=CTT100921131 oai:t2r2.star.titech.ac.jp:50708354 |
| _version_ |
1810448763042398208 |