A Comparative Study of Conventional and Hybrid Nanofluids Performance in Machining Processes
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Publisher
Springer Nature Singapore
Link
https://link.springer.com/content/pdf/10.1007/978-981-99-9848-7_26
Reference56 articles.
1. Molaie M, Zahedi A, Akbari J (2018) Effect of water-based nanolubricants in ultrasonic vibration assisted grinding. J Manuf Mater Process 2:80. https://doi.org/10.3390/JMMP2040080
2. Rosli AM, Jamaludin AS, Razali MNM, Sani ASA, Hamzah SB, Osman MS (2019) Modelling of fuzzy inference system for micro milling—a preliminary study through FEM. In: Lecture notes in mechanical engineering, pp 445–456
3. Safiei W (2021) Md Mustafizur Rahman, Ahmad Razlan Yusoff, Wajiha Tasnim, Zetty Akhtar Abd Malek: Evaluation of cutting force in end milling process of aluminum alloy 6061–T6 using tungsten carbide inserts with MQL method utilizing hybrid nanofluid. J Adv Res Fluid Mech Therm Sci 84:111–125
4. Anbuchezhiyan G, Saravanan R, Pugazhenthi R, Rathinam V, Nagireddy M (2022) Reconnoitering the influence of nanofluid of nano-alumina particles enriched waste coconut oil in machining SAE 1045 shaft on modification surface finish. Mater Today Proc 64:661–666
5. Shah R, Shirvani KA, Przyborowski A, Pai N, Mosleh M (2022) Role of nanofluid minimum quantity lubrication (NMQL) in machining application. Lubricants 10:266
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