Investigations of Machining Characteristics in the Upgraded MQL-Assisted Turning of Pure Titanium Alloys Using Evolutionary Algorithms
Environmental protection is the major concern of any form of manufacturing industry today. As focus has shifted towards sustainable cooling strategies, minimum quantity lubrication (MQL) has proven its usefulness. The current survey intends to make the MQL strategy more effective while improving its...
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| Veröffentlicht in: | Materials Jg. 12; H. 6; S. 999 |
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| Abstract | Environmental protection is the major concern of any form of manufacturing industry today. As focus has shifted towards sustainable cooling strategies, minimum quantity lubrication (MQL) has proven its usefulness. The current survey intends to make the MQL strategy more effective while improving its performance. A Ranque–Hilsch vortex tube (RHVT) was implemented into the MQL process in order to enhance the performance of the manufacturing process. The RHVT is a device that allows for separating the hot and cold air within the compressed air flows that come tangentially into the vortex chamber through the inlet nozzles. Turning tests with a unique combination of cooling technique were performed on titanium (Grade 2), where the effectiveness of the RHVT was evaluated. The surface quality measurements, forces values, and tool wear were carefully investigated. A combination of analysis of variance (ANOVA) and evolutionary techniques (particle swarm optimization (PSO), bacteria foraging optimization (BFO), and teaching learning-based optimization (TLBO)) was brought into use in order to analyze the influence of the process parameters. In the end, an appropriate correlation between PSO, BFO, and TLBO was investigated. It was shown that RHVT improved the results by nearly 15% for all of the responses, while the TLBO technique was found to be the best optimization technique, with an average time of 1.09 s and a success rate of 90%. |
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| AbstractList | Environmental protection is the major concern of any form of manufacturing industry today. As focus has shifted towards sustainable cooling strategies, minimum quantity lubrication (MQL) has proven its usefulness. The current survey intends to make the MQL strategy more effective while improving its performance. A Ranque–Hilsch vortex tube (RHVT) was implemented into the MQL process in order to enhance the performance of the manufacturing process. The RHVT is a device that allows for separating the hot and cold air within the compressed air flows that come tangentially into the vortex chamber through the inlet nozzles. Turning tests with a unique combination of cooling technique were performed on titanium (Grade 2), where the effectiveness of the RHVT was evaluated. The surface quality measurements, forces values, and tool wear were carefully investigated. A combination of analysis of variance (ANOVA) and evolutionary techniques (particle swarm optimization (PSO), bacteria foraging optimization (BFO), and teaching learning-based optimization (TLBO)) was brought into use in order to analyze the influence of the process parameters. In the end, an appropriate correlation between PSO, BFO, and TLBO was investigated. It was shown that RHVT improved the results by nearly 15% for all of the responses, while the TLBO technique was found to be the best optimization technique, with an average time of 1.09 s and a success rate of 90%. Environmental protection is the major concern of any form of manufacturing industry today. As focus has shifted towards sustainable cooling strategies, minimum quantity lubrication (MQL) has proven its usefulness. The current survey intends to make the MQL strategy more effective while improving its performance. A Ranque⁻Hilsch vortex tube (RHVT) was implemented into the MQL process in order to enhance the performance of the manufacturing process. The RHVT is a device that allows for separating the hot and cold air within the compressed air flows that come tangentially into the vortex chamber through the inlet nozzles. Turning tests with a unique combination of cooling technique were performed on titanium (Grade 2), where the effectiveness of the RHVT was evaluated. The surface quality measurements, forces values, and tool wear were carefully investigated. A combination of analysis of variance (ANOVA) and evolutionary techniques (particle swarm optimization (PSO), bacteria foraging optimization (BFO), and teaching learning-based optimization (TLBO)) was brought into use in order to analyze the influence of the process parameters. In the end, an appropriate correlation between PSO, BFO, and TLBO was investigated. It was shown that RHVT improved the results by nearly 15% for all of the responses, while the TLBO technique was found to be the best optimization technique, with an average time of 1.09 s and a success rate of 90%.Environmental protection is the major concern of any form of manufacturing industry today. As focus has shifted towards sustainable cooling strategies, minimum quantity lubrication (MQL) has proven its usefulness. The current survey intends to make the MQL strategy more effective while improving its performance. A Ranque⁻Hilsch vortex tube (RHVT) was implemented into the MQL process in order to enhance the performance of the manufacturing process. The RHVT is a device that allows for separating the hot and cold air within the compressed air flows that come tangentially into the vortex chamber through the inlet nozzles. Turning tests with a unique combination of cooling technique were performed on titanium (Grade 2), where the effectiveness of the RHVT was evaluated. The surface quality measurements, forces values, and tool wear were carefully investigated. A combination of analysis of variance (ANOVA) and evolutionary techniques (particle swarm optimization (PSO), bacteria foraging optimization (BFO), and teaching learning-based optimization (TLBO)) was brought into use in order to analyze the influence of the process parameters. In the end, an appropriate correlation between PSO, BFO, and TLBO was investigated. It was shown that RHVT improved the results by nearly 15% for all of the responses, while the TLBO technique was found to be the best optimization technique, with an average time of 1.09 s and a success rate of 90%. Environmental protection is the major concern of any form of manufacturing industry today. As focus has shifted towards sustainable cooling strategies, minimum quantity lubrication (MQL) has proven its usefulness. The current survey intends to make the MQL strategy more effective while improving its performance. A Ranque⁻Hilsch vortex tube (RHVT) was implemented into the MQL process in order to enhance the performance of the manufacturing process. The RHVT is a device that allows for separating the hot and cold air within the compressed air flows that come tangentially into the vortex chamber through the inlet nozzles. Turning tests with a unique combination of cooling technique were performed on titanium (Grade 2), where the effectiveness of the RHVT was evaluated. The surface quality measurements, forces values, and tool wear were carefully investigated. A combination of analysis of variance (ANOVA) and evolutionary techniques (particle swarm optimization (PSO), bacteria foraging optimization (BFO), and teaching learning-based optimization (TLBO)) was brought into use in order to analyze the influence of the process parameters. In the end, an appropriate correlation between PSO, BFO, and TLBO was investigated. It was shown that RHVT improved the results by nearly 15% for all of the responses, while the TLBO technique was found to be the best optimization technique, with an average time of 1.09 s and a success rate of 90%. |
| Author | Muhammad Jamil Vishal S. Sharma Aqib Mashood Khan Gurraj Singh Munish Kumar Gupta Mozammel Mia Danil Yurievich Pimenov Catalin Iulian Pruncu Binayak Sen |
| AuthorAffiliation | 1 School of Mechanical Engineering, Lovely Professional University, Phagwara 144411, India; singh_gurraj@yahoo.co.in 2 Mechanical Engineering, Imperial College London, Exhibition Rd., London SW7 2AZ, UK 7 Department of Automated Mechanical Engineering, South Ural State University, Lenin Prosp. 76, Chelyabinsk 454080, Russia; danil_u@rambler.ru 5 Mechanical and Production Engineering, Ahsanullah University of Science and Technology, Dhaka 1208, Bangladesh; mozammelmiaipe@gmail.com 3 Mechanical Engineering, School of Engineering, University of Birmingham, Birmingham B15 2TT, UK 6 College of Mechanical and Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China; dr.aqib@nuaa.edu.cn (A.M.K.); engr.jamil@nuaa.edu.cn (M.J.) 9 I & P Engg. Department, Dr. B.R. Ambedkar N.I.T, Jalandhar 144001, India; sharmavs@nitj.ac.in 8 Department of Production Engineering, National Institute of Technology, Agartala 799046, India; binayaksen3@gmail.com 4 University Center fo |
| AuthorAffiliation_xml | – name: 4 University Center for Research & Development, Chandigarh University, Gharuan 160055, India; munishguptanit@gmail.com – name: 1 School of Mechanical Engineering, Lovely Professional University, Phagwara 144411, India; singh_gurraj@yahoo.co.in – name: 7 Department of Automated Mechanical Engineering, South Ural State University, Lenin Prosp. 76, Chelyabinsk 454080, Russia; danil_u@rambler.ru – name: 8 Department of Production Engineering, National Institute of Technology, Agartala 799046, India; binayaksen3@gmail.com – name: 9 I & P Engg. Department, Dr. B.R. Ambedkar N.I.T, Jalandhar 144001, India; sharmavs@nitj.ac.in – name: 5 Mechanical and Production Engineering, Ahsanullah University of Science and Technology, Dhaka 1208, Bangladesh; mozammelmiaipe@gmail.com – name: 2 Mechanical Engineering, Imperial College London, Exhibition Rd., London SW7 2AZ, UK – name: 6 College of Mechanical and Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China; dr.aqib@nuaa.edu.cn (A.M.K.); engr.jamil@nuaa.edu.cn (M.J.) – name: 3 Mechanical Engineering, School of Engineering, University of Birmingham, Birmingham B15 2TT, UK |
| Author_xml | – sequence: 1 givenname: Gurraj surname: Singh fullname: Singh, Gurraj – sequence: 2 givenname: Catalin Iulian orcidid: 0000-0002-4926-2189 surname: Pruncu fullname: Pruncu, Catalin Iulian – sequence: 3 givenname: Munish Kumar orcidid: 0000-0002-0777-1559 surname: Gupta fullname: Gupta, Munish Kumar – sequence: 4 givenname: Mozammel orcidid: 0000-0002-8351-1871 surname: Mia fullname: Mia, Mozammel – sequence: 5 givenname: Aqib Mashood orcidid: 0000-0002-4446-4478 surname: Khan fullname: Khan, Aqib Mashood – sequence: 6 givenname: Muhammad surname: Jamil fullname: Jamil, Muhammad – sequence: 7 givenname: Danil Yurievich orcidid: 0000-0002-5568-8928 surname: Pimenov fullname: Pimenov, Danil Yurievich – sequence: 8 givenname: Binayak surname: Sen fullname: Sen, Binayak – sequence: 9 givenname: Vishal S. surname: Sharma fullname: Sharma, Vishal S. |
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| SubjectTerms | 03 Chemical Sciences 09 Engineering Aerodynamics Compressed air Cooling Cooling effects CUTTING FLUIDS Environmental protection evolutionary algorithm Evolutionary algorithms Genetic algorithms Grain size Inlet nozzles Lubricants & lubrication Lubrication MACHINABILITY Materials Science Materials Science, Multidisciplinary Mechanical engineering MQL MQL; RHVT; optimization; turning; titanium; evolutionary algorithm Multidisciplinary NANO-FLUID optimization Optimization algorithms PARAMETER OPTIMIZATION Particle swarm optimization Process engineering Process parameters QUANTITY LUBRICATION R&D Research & development RESPONSE-SURFACE RHVT Science & Technology Surface properties SURFACE-ROUGHNESS Technology TEMPERATURE titanium Titanium alloys Titanium base alloys TOOL WEAR turning Turning (machining) Variance analysis Vortex chambers VORTEX-TUBE Vortices |
| Title | Investigations of Machining Characteristics in the Upgraded MQL-Assisted Turning of Pure Titanium Alloys Using Evolutionary Algorithms |
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