Green-Machining Characteristics Study and Comparison in Meso-Scale End-Milling of AISI-1055 and AISI-4340 Steels

Rahman, Md. Zishanur; Das, Alok Kumar; Chattopadhyaya, Somnath; Reyaz, Md.

doi:10.1007/978-981-32-9099-0_7

Cited by 1 publication

(2 citation statements)

References 11 publications

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“…In the interaction of the feed rate and length-of-cut, the helix angle is at 45 • ; hence, the lengthof-cut increase has little effect on the result of the MRR. Findings in [12,13] support this result. However, the authors' work has challenges of excess vibration occurrence since the works involve dry machining techniques.…”

Section: The Study Of the Effects Of The Interaction Between Feed Rat...supporting

confidence: 70%

“…Vegetable oil from literature has been confirmed to have good lubrication properties compared with mineral oil and the conventional cutting fluid. Moreover, vegetable oil is eco-friendly to both the operational and the environment after being discharged after machining [12][13][14]. The synthesized metallic and non-metallic nano-lubricant applications through the minimum quantity lubrication technique on aluminum alloy are unique machining techniques for excellent properties against tool wear deterioration and minimum material removal rate.…”

Section: Introductionmentioning

confidence: 99%

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Performance Investigation of the Effects of Nano-Additive-Lubricants with Cutting Parameters on Material Removal Rate of AL8112 Alloy for Advanced Manufacturing Application

Okokpujie

Tartibu

2021

Sustainability

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The implementation of nano-additives in machining fluid is significant for manufacturers to attain a sustainable manufacturing process. The material removal rate (MRR) is a significant process of transforming solid raw materials into specific shapes and sizes. This process has many challenges due to friction, vibration, chip discontinuity when machining aluminum alloy, which has led to poor accuracy and affected the fatigue life of the developed material. It is worth noting that aluminum 8112 alloy is currently being applied in most engineering applications due to its lightweight-to-strength ratio compared to some other metals. This research aims to compare the effects of copra oil-based-titanium dioxide (TiO2)- and Multi-walled Carbon Nanotubes (MWCNTs)-nano-lubricant with cutting parameter interactions by conducting a study on MRR for advanced machining of aluminum 8112 alloys. The biodegradable nano-additive-lubricants were developed using two-step preparation techniques. The study employed a quadratic rotatable central composite design (QRCCD) to carry out the interaction study of the five machining parameters in the three lubrication environments on MRR. The results show that the copra-based-TiO2 nano-lubricant increases the MRR by 7.5% and 16% than the MWCNTs and copra-oil-lubrication machining environments, respectively. In conclusion, the eco-friendly nano-additive-lubricant TiO2-Copra oil-based should be applied to manufacture machine parts for high entropy applications for sustainable production systems.

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Section: The Study Of the Effects Of The Interaction Between Feed Rat...supporting

confidence: 70%

Section: Introductionmentioning

confidence: 99%

Performance Investigation of the Effects of Nano-Additive-Lubricants with Cutting Parameters on Material Removal Rate of AL8112 Alloy for Advanced Manufacturing Application

Okokpujie

Tartibu

2021

Sustainability

View full text Add to dashboard Cite

show abstract

Green-Machining Characteristics Study and Comparison in Meso-Scale End-Milling of AISI-1055 and AISI-4340 Steels

Cited by 1 publication

References 11 publications

Performance Investigation of the Effects of Nano-Additive-Lubricants with Cutting Parameters on Material Removal Rate of AL8112 Alloy for Advanced Manufacturing Application

Performance Investigation of the Effects of Nano-Additive-Lubricants with Cutting Parameters on Material Removal Rate of AL8112 Alloy for Advanced Manufacturing Application

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