Performance Evaluation of Hybrid MQL-Brass Nano-Fluid Coolant on Aisi 304 SS for Efficient Machining Operation
Brass Nanofluid is a substance made from synthetic copper and zinc powder. It has outstanding mechanical, electrical, thermal and optical qualities employed in a variety of applications including, solar, touch screen, bison. The nanoparticles used in this study were developed from brass alloy which...
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College of Engineering of Afe Babalola University, Ado-Ekiti (ABUAD), Ekiti State, Nigeria
2023-12-01
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| Series: | ABUAD Journal of Engineering Research and Development |
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| Online Access: | https://journals.abuad.edu.ng/index.php/ajerd/article/view/274 |
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| author | Francis Olusesi Borokinni Bukola Olalekan Bolaji Bayode Julius Olorunfemi Kazeem Aderemi Bello Olarewaju Thomas Oginni |
| author_facet | Francis Olusesi Borokinni Bukola Olalekan Bolaji Bayode Julius Olorunfemi Kazeem Aderemi Bello Olarewaju Thomas Oginni |
| author_sort | Francis Olusesi Borokinni |
| collection | DOAJ |
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Brass Nanofluid is a substance made from synthetic copper and zinc powder. It has outstanding mechanical, electrical, thermal and optical qualities employed in a variety of applications including, solar, touch screen, bison. The nanoparticles used in this study were developed from brass alloy which was locally sourced and machined to the required nano-size of 40 µm. A top-down strategy was used for the preparation of nanofluid and ball milling utilized to ground the brass alloy and sieved after grinding using a 40 µm sleeve. A double approach strategy was applied to prepare the nanofluid and the sonification process of brass nanofluid was conducted using ultra sonic equipment. The result shows that the light paraffin oil with varying concentration percentage of brass alloy and conventional cutting fluid (castrole oil) with varying concentration percentage of brass alloy display similar performance. Optimizing the additive ratio of nano particle provided better outcomes identified in the range of 2-10g with 200 ml of cutting fluid. This improves the surface roughness finish of machined part while inclusion of brass nano particle with cutting fluid improves the material removal rate, reduce the temperature and the cutting zone providing a guaranteed finish product compared to other base fluid.
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| format | Article |
| id | doaj-art-ab388d85d93940e1b3b1974d5b362b5e |
| institution | Kabale University |
| issn | 2756-6811 2645-2685 |
| language | English |
| publishDate | 2023-12-01 |
| publisher | College of Engineering of Afe Babalola University, Ado-Ekiti (ABUAD), Ekiti State, Nigeria |
| record_format | Article |
| series | ABUAD Journal of Engineering Research and Development |
| spelling | doaj-art-ab388d85d93940e1b3b1974d5b362b5e2024-12-31T10:19:23ZengCollege of Engineering of Afe Babalola University, Ado-Ekiti (ABUAD), Ekiti State, NigeriaABUAD Journal of Engineering Research and Development2756-68112645-26852023-12-016210.53982/ajerd.2023.0602.20-j229Performance Evaluation of Hybrid MQL-Brass Nano-Fluid Coolant on Aisi 304 SS for Efficient Machining OperationFrancis Olusesi Borokinni0Bukola Olalekan Bolaji1Bayode Julius Olorunfemi2Kazeem Aderemi Bello3Olarewaju Thomas Oginni4Department of Mechanical Engineering, Yaba College of Technology, Lagos State, NigeriaDepartment of Mechanical Engineering, Federal University Oye-Ekiti, Ekiti State, NigeriaDepartment of Mechanical Engineering, Federal University Oye-Ekiti, Ekiti State, NigeriaDepartment of Mechanical Engineering, Federal University Oye-Ekiti, Ekiti State, NigeriaDepartment of Mechanical Engineering, Bamidele Olumilua University of Education, Science and Technology, Ikere-Ekiti, Ekiti State, Nigeria Brass Nanofluid is a substance made from synthetic copper and zinc powder. It has outstanding mechanical, electrical, thermal and optical qualities employed in a variety of applications including, solar, touch screen, bison. The nanoparticles used in this study were developed from brass alloy which was locally sourced and machined to the required nano-size of 40 µm. A top-down strategy was used for the preparation of nanofluid and ball milling utilized to ground the brass alloy and sieved after grinding using a 40 µm sleeve. A double approach strategy was applied to prepare the nanofluid and the sonification process of brass nanofluid was conducted using ultra sonic equipment. The result shows that the light paraffin oil with varying concentration percentage of brass alloy and conventional cutting fluid (castrole oil) with varying concentration percentage of brass alloy display similar performance. Optimizing the additive ratio of nano particle provided better outcomes identified in the range of 2-10g with 200 ml of cutting fluid. This improves the surface roughness finish of machined part while inclusion of brass nano particle with cutting fluid improves the material removal rate, reduce the temperature and the cutting zone providing a guaranteed finish product compared to other base fluid. https://journals.abuad.edu.ng/index.php/ajerd/article/view/274Hybrid MQL-BrassNano-FluidCoolantMachiningEfficient Operation |
| spellingShingle | Francis Olusesi Borokinni Bukola Olalekan Bolaji Bayode Julius Olorunfemi Kazeem Aderemi Bello Olarewaju Thomas Oginni Performance Evaluation of Hybrid MQL-Brass Nano-Fluid Coolant on Aisi 304 SS for Efficient Machining Operation ABUAD Journal of Engineering Research and Development Hybrid MQL-Brass Nano-Fluid Coolant Machining Efficient Operation |
| title | Performance Evaluation of Hybrid MQL-Brass Nano-Fluid Coolant on Aisi 304 SS for Efficient Machining Operation |
| title_full | Performance Evaluation of Hybrid MQL-Brass Nano-Fluid Coolant on Aisi 304 SS for Efficient Machining Operation |
| title_fullStr | Performance Evaluation of Hybrid MQL-Brass Nano-Fluid Coolant on Aisi 304 SS for Efficient Machining Operation |
| title_full_unstemmed | Performance Evaluation of Hybrid MQL-Brass Nano-Fluid Coolant on Aisi 304 SS for Efficient Machining Operation |
| title_short | Performance Evaluation of Hybrid MQL-Brass Nano-Fluid Coolant on Aisi 304 SS for Efficient Machining Operation |
| title_sort | performance evaluation of hybrid mql brass nano fluid coolant on aisi 304 ss for efficient machining operation |
| topic | Hybrid MQL-Brass Nano-Fluid Coolant Machining Efficient Operation |
| url | https://journals.abuad.edu.ng/index.php/ajerd/article/view/274 |
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