Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling
A sequential process combining laser beam micromachining (LBMM) and micro electro-discharge machining (mu EDM) for the micro-drilling purpose was developed to incorporate both methods' benefits. In this sequential process, a guiding hole is produced through LBMM first, followed by mu EDM applie...
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my.utm.963862022-07-18T10:45:10Z http://eprints.utm.my/id/eprint/96386/ Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling Noor, Wazed Ibne Saleh, Tanveer Noor Rashid, Mir Akmam Mohd. Ibrahim, Azhar Mohamed Ali, Mohamed Sultan TK Electrical engineering. Electronics Nuclear engineering A sequential process combining laser beam micromachining (LBMM) and micro electro-discharge machining (mu EDM) for the micro-drilling purpose was developed to incorporate both methods' benefits. In this sequential process, a guiding hole is produced through LBMM first, followed by mu EDM applied to that same hole for more fine machining. This process facilitates a more stable, efficient machining regime with faster processing (compared to pure mu EDM) and a much better hole quality (compared to LBMMed holes). Studies suggest that strong correlations exist between the various input and output parameters of the sequential process. However, a mathematical model that maps and simultaneously predicts all these output parameters from the input parameters is yet to be developed. Our experimental study observed that the mu EDM finishing operation's various output parameters are influenced by the morphological condition of the LBMMed holes. Hence, an artificial neural network (ANN)-based dual-stage modeling method was developed to predict the sequential process's outputs. The first stage of the dual-stage model was utilized to predict various LBMM process outputs from different laser input parameters. Furthermore, in the second stage, LBMM-predicted outputs (such as pilot hole entry area, exit area, recast layer, and heat-affected zone) were used for the final prediction of the sequential process outputs (i.e., machining time by mu EDM, machining stability during mu EDM in terms of short circuit/arcing count, and tool wear during mu EDM). The model was evaluated based on the average RMSE (root mean square errors) values for the individual output parameters' complete set data, i.e., mu EDM time, short circuit/arcing count, and tool wear. The values of average RMSE for the parameters as mentioned earlier were found to be 0.1272 (87.28% accuracy), 0.1085 (89.15% accuracy), and 0.097 (90.3% accuracy), respectively. Springer 2021 Article PeerReviewed Noor, Wazed Ibne and Saleh, Tanveer and Noor Rashid, Mir Akmam and Mohd. Ibrahim, Azhar and Mohamed Ali, Mohamed Sultan (2021) Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling. International Journal Of Advanced Manufacturing Technology, 117 (11-12). pp. 3343-3365. ISSN 0268-3768 http://dx.doi.org/10.21203/rs.3.rs-385339/v1 |
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TK Electrical engineering. Electronics Nuclear engineering Noor, Wazed Ibne Saleh, Tanveer Noor Rashid, Mir Akmam Mohd. Ibrahim, Azhar Mohamed Ali, Mohamed Sultan Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling |
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A sequential process combining laser beam micromachining (LBMM) and micro electro-discharge machining (mu EDM) for the micro-drilling purpose was developed to incorporate both methods' benefits. In this sequential process, a guiding hole is produced through LBMM first, followed by mu EDM applied to that same hole for more fine machining. This process facilitates a more stable, efficient machining regime with faster processing (compared to pure mu EDM) and a much better hole quality (compared to LBMMed holes). Studies suggest that strong correlations exist between the various input and output parameters of the sequential process. However, a mathematical model that maps and simultaneously predicts all these output parameters from the input parameters is yet to be developed. Our experimental study observed that the mu EDM finishing operation's various output parameters are influenced by the morphological condition of the LBMMed holes. Hence, an artificial neural network (ANN)-based dual-stage modeling method was developed to predict the sequential process's outputs. The first stage of the dual-stage model was utilized to predict various LBMM process outputs from different laser input parameters. Furthermore, in the second stage, LBMM-predicted outputs (such as pilot hole entry area, exit area, recast layer, and heat-affected zone) were used for the final prediction of the sequential process outputs (i.e., machining time by mu EDM, machining stability during mu EDM in terms of short circuit/arcing count, and tool wear during mu EDM). The model was evaluated based on the average RMSE (root mean square errors) values for the individual output parameters' complete set data, i.e., mu EDM time, short circuit/arcing count, and tool wear. The values of average RMSE for the parameters as mentioned earlier were found to be 0.1272 (87.28% accuracy), 0.1085 (89.15% accuracy), and 0.097 (90.3% accuracy), respectively. |
| format |
Article |
| author |
Noor, Wazed Ibne Saleh, Tanveer Noor Rashid, Mir Akmam Mohd. Ibrahim, Azhar Mohamed Ali, Mohamed Sultan |
| author_facet |
Noor, Wazed Ibne Saleh, Tanveer Noor Rashid, Mir Akmam Mohd. Ibrahim, Azhar Mohamed Ali, Mohamed Sultan |
| author_sort |
Noor, Wazed Ibne |
| title |
Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling |
| title_short |
Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling |
| title_full |
Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling |
| title_fullStr |
Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling |
| title_full_unstemmed |
Dual-stage artificial neural network (ANN) model for sequential LBMM-mu EDM-based micro-drilling |
| title_sort |
dual-stage artificial neural network (ann) model for sequential lbmm-mu edm-based micro-drilling |
| publisher |
Springer |
| publishDate |
2021 |
| url |
http://eprints.utm.my/id/eprint/96386/ http://dx.doi.org/10.21203/rs.3.rs-385339/v1 |
| _version_ |
1739828072214953984 |