Energy conservation and environmental sustainability during grinding operation of Ti–6Al–4V alloys via eco-friendly oil/graphene nano additive and Minimum quantity lubrication

Energy conservation and environmental sustainability during grinding operation of Ti–6Al–4V alloys via eco-friendly oil/graphene nano additive and Minimum quantity lubrication

Conventional cutting fluids cannot fit the principles of green manufacturing in terms of cost, energy-saving, environmental and health impacts. Therefore, it is planned to develop high-performance cutting fluids based on biodegradable, health-friendly nanofluids that exhibit sufficient lubrication a...

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Veröffentlicht in:Tribology international 2020-10, Vol.150, p.106387, Article 106387
Hauptverfasser: Ibrahim, Ahmed Mohamed Mahmoud, Li, Wei, Xiao, Hang, Zeng, Zhixiong, Ren, Yinghui, Alsoufi, Mohammad S.
Format: Artikel
Sprache:eng
Schlagworte:
Biodegradability
Coefficient of friction
Cutting energy
Cutting fluids
Drying oils
Eco-friendly nanofluid
Energy conservation
Environmental impact
Friction reduction
Graphene
Green manufacturing
Grinding
Lubrication
Nano lubricants
Nanofluids
Palm oil
Titanium base alloys
Tribology
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container_end_page
container_issue
container_start_page 106387
container_title Tribology international
container_volume 150
creator Ibrahim, Ahmed Mohamed Mahmoud
Li, Wei
Xiao, Hang
Zeng, Zhixiong
Ren, Yinghui
Alsoufi, Mohammad S.
description Conventional cutting fluids cannot fit the principles of green manufacturing in terms of cost, energy-saving, environmental and health impacts. Therefore, it is planned to develop high-performance cutting fluids based on biodegradable, health-friendly nanofluids that exhibit sufficient lubrication and cooling properties. Palm oil-based nanofluid containing different percentages of graphene nanoplatelets (GNPs) were prepared and evaluated utilizing the Minimal quantity lubrication (MQL) mode. The cutting, tribological and microstructure tests revealed that GNPs with the content percentage of 0.1 wt% decreased the specific grinding energy by 91.78% compared to dry cutting. Furthermore, the palm oil/0.1 wt% GNPs based nanofluid could lessen the specific cutting energy by 80.25% compared to commercially high-performance Acculube LB2000 because of the sharp reduction in the friction coefficient. [Display omitted] •The proposed nanofluid saved the energy by 91.78% compared to dry cutting.•The proposed nanofluid saved the specific energy by 80.25% compared to LB2000.•Cutting force is decreased by the action of palm oil-GNPs/MQL lubrication strategy.•The surface quality is improved by palm oil-GNPs/MQL lubrication strategy.•The friction coefficient of the sliding tribo-pairs is reduced by the nanofluid.
doi_str_mv 10.1016/j.triboint.2020.106387
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subjects Biodegradability
Coefficient of friction
Cutting energy
Cutting fluids
Drying oils
Eco-friendly nanofluid
Energy conservation
Environmental impact
Friction reduction
Graphene
Green manufacturing
Grinding
Lubrication
Nano lubricants
Nanofluids
Palm oil
Titanium base alloys
Tribology
title Energy conservation and environmental sustainability during grinding operation of Ti–6Al–4V alloys via eco-friendly oil/graphene nano additive and Minimum quantity lubrication
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