Bruno Kenta Sato scite author profile

The application of minimum quantity of lubricant (MQL) in grinding process is a challenging task. Once the MQL is considered an environmentally friendly technique, its implementation in grinding process is interesting to achieve cleaner production. On the other hand, its use brings some problems to the process, such as intensification of grinding wheel clogging phenomenon and increase of cutting temperatures, which impairs on the attainment of a good surface quality, together with dimensional and geometrical accuracy. Looking for improving the MQL efficiency in grinding process, two eco-friendly techniques were found: the addition of water in the MQL and the wheel cleaning system with compressed air. The present research seeks to evaluate the improvement of MQL application in grinding using the combination of these techniques. Both techniques MQL + water and wheel cleaning system are innovative, since there are almost no articles in literature citing its use. The experiments were performed in an external cylindrical plunge grinding using a vitrified cubic boron nitrite (CBN) grinding wheel. The workpiece material was a quenched and tempered AISI 4340 steel. The cooling methods employed in the process were a conventional method (flood coolant),

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Toward sustainable grinding using minimum quantity lubrication technique with diluted oil and simultaneous wheel cleaning

Sato

Lopes

Diniz

et al. 2020

Tribology International

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Effect of hardened steel grinding using aluminum oxide wheel under application of cutting fluid with corrosion inhibitors

Talon

Lopes

Tavares

et al. 2019

Int J Adv Manuf Technol

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Eco-friendly manufacturing towards the industry of the future with a focus on less cutting fluid and high workpiece quality applied to the grinding process

Sato

Lopes

Rodriguez

et al. 2021

Int J Adv Manuf Technol

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Bruno Kenta Sato

Minimum quantity of lubrication (MQL) as an eco-friendly alternative to the cutting fluids in advanced ceramics grinding

Evaluating the effect of the compressed air wheel cleaning in grinding the AISI 4340 steel with CBN and MQL with water

Toward sustainable grinding using minimum quantity lubrication technique with diluted oil and simultaneous wheel cleaning

Effect of hardened steel grinding using aluminum oxide wheel under application of cutting fluid with corrosion inhibitors

Eco-friendly manufacturing towards the industry of the future with a focus on less cutting fluid and high workpiece quality applied to the grinding process

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