A review on recent development of minimum quantity lubrication for sustainable machining

Achieving sustainable machining is in demand nowadays and it is in line with the rise of global eco-awareness and rigorous regulations by the authorities to prevent from further damaging the environment and its constituents. One of the sustainable solutions extensively explored over the years is mac...

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Bibliographic Details
Published in:Journal of cleaner production 2020-09, Vol.268, p.122165, Article 122165
Main Authors: Hamran, N.N. Nor, Ghani, J.A., Ramli, R., Haron, C.H. Che
Format: Article
Language:English
Subjects:
Advancements
Challenges
Minimum quantity lubrication
MQL system
Sustainability
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Summary:Achieving sustainable machining is in demand nowadays and it is in line with the rise of global eco-awareness and rigorous regulations by the authorities to prevent from further damaging the environment and its constituents. One of the sustainable solutions extensively explored over the years is machining with minimum quantity lubrication system. Nevertheless, there is still room to improve this system as minimum quantity lubrication assisted machining poses some challenges. This paper provides a review of research articles involving the improvements made to enhance machining performance with minimum quantity lubrication system. To carry out the study, three search databases are used to compile all the minimum quantity lubrication advancements published over a span of 6 most recent years from 2014 to 2019. The machining performance are compiled for each category of advancements: minimum quantity lubrication with additives, minimum quantity lubrication with cooled air/gas as well as restructuring minimum quantity lubrication system and critically considers the experiment details such as workpiece material, machining process, cutting tool material, cooling/lubrication condition, cutting fluid and the output measurements, namely surface roughness, tool wear, cutting force and cutting temperature. Results obtained from the articles mostly show that the minimum quantity lubrication advancements outperform an independent minimum quantity lubrication system by generating better surface quality, providing lower tool wear and cutting force. •Review of MQL system in terms of sustainability, supply system, machining performance and challenges in MQL machining.•New structure diagram for the classifications of MQL advancements to overcome the challenges in MQL machining.•Review of recent machining with MQL advancements in terms of publication trends, experiment input and machining performances.•Introduction of new potential research area of MQL Advancements and the corresponding machining performances.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2020.122165