Prediction of Thrust Force and Torque for High-Speed Drilling of AL6061 with TMPTO-Based Bio-Lubricants Using Machine Learning

Kathmore, Pramod; Bachchhav, Bhanudas; Nandi, Somnath; Salunkhe, Sachin; Chandrakumar, Palanisamy; Nasr, Emad Abouel; Kamrani, Ali

doi:10.3390/lubricants11090356

Lubricants

2023

DOI: 10.3390/lubricants11090356

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Prediction of Thrust Force and Torque for High-Speed Drilling of AL6061 with TMPTO-Based Bio-Lubricants Using Machine Learning

Pramod Kathmore,

Bhanudas Bachchhav,

Somnath Nandi

et al.

Abstract: This study was designed to examine the effects of a trimethylolpropane trioleate (TMPTO)-based lubricant on thrust force and torque under the high-speed drilling of Al-6061 as an effective environmentally friendly cutting fluid. The tribological performance of three lubricant blends was evaluated based on ASTM standards. TMPTO base oil, notably enhances load-carrying capacity under extreme pressure conditions, with a seizer load of 7848 N. The best-performing oil was further optimized using a Taguchi-based des… Show more

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Cited by 4 publications

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Conversion of hazardous waste cooking oil into non-fuel value added products

Awogbemi,

Kallon

2024

International Journal of Ambient Energy

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Conversion of hazardous waste cooking oil into non-fuel value added products

Awogbemi,

Kallon

2024

International Journal of Ambient Energy

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Experimental study and multi-objective optimisation of CNC turning parameters of AL6061 materials

Nguyen,

Do,

Tran

2024

Australian Journal of Mechanical Engineering

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Analyzing the efficacy of trimethylolpropane trioleate oil for predicting cutting power and surface roughness in high-speed drilling of Al-6061 through machine learning

Kathmore,

Bachchhav,

Kaya

et al. 2024

PLoS ONE

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This study aimed to investigate the impact of a lubricant derived from trimethylolpropane trioleate on power consumption and surface roughness during high-speed drilling of Al-6061, with the goal of developing an environmentally friendly cutting fluid. The study investigated the impact of additive concentration, spindle speed, and feed rate on energy consumption and surface roughness using a Taguchi L27 orthogonal array. Through analysis of the Taguchi experimental outcomes and single-to-noise ratios, the parameters were ranked accordingly. The results of the ANOVA analysis reveal that spindle speed has the greatest impact on Power (87.89%), followed by followed feed rate (6.96%) and additive concentration (2.98%). However, feed rate (43.51%) has the most significant influence on surface roughness, followed by speed (38.48%) and additive concentration (11.90%). Varying additive concentration affects more on surface quality rather than power consumption. Furthermore, a machine learning algorithm was developed to forecast and compare various key aspects of high-speed drilling machinability, including power and surface roughness. Three different measures of accuracy were used to evaluate the performance of the projected values: coefficient of determination (R2), mean absolute percentage error, and mean square error. The decision tree performed better than other models in accurately predicting power and surface roughness. This research introduces an innovative method for assessing the most effective biodegradable cutting fluid and forecasting power and surface quality by developing an optimal combination.

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Prediction of Thrust Force and Torque for High-Speed Drilling of AL6061 with TMPTO-Based Bio-Lubricants Using Machine Learning

Cited by 4 publications

References 34 publications

Conversion of hazardous waste cooking oil into non-fuel value added products

Conversion of hazardous waste cooking oil into non-fuel value added products

Experimental study and multi-objective optimisation of CNC turning parameters of AL6061 materials

Analyzing the efficacy of trimethylolpropane trioleate oil for predicting cutting power and surface roughness in high-speed drilling of Al-6061 through machine learning

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