Researchers so far have given more attention to the performance of mono type nanoparticle
enriched cutting fluids in machining. In present investigation, a hybrid nano-cutting fluid has …

The current study examines the influence of various mono and proportional hybrid
nanofluids prepared with multi-walled carbon nanotube (MWCNT), alumina (Al 2 O 3) and …

The alloy steels commonly used for manufacturing of moulds and dies are the metals under
hard-to-cut category because of their hardness above 50 HRC in order to attain high …

Efficient cooling and lubrication techniques are required to obtain sustainable machining of
difficult-to-cut materials, which are the pillars of aerospace, automotive, medical and nuclear …

The present research addresses the machinability of hardened die steel (AISI D3, 61HRC)
in hard turning using multilayer (TiCN/Al2O3/TiN) coated carbide tool under nanofluid based …

The present work proposes a combined experimental methodology and optimization
strategy of the process parameters for the turning of Nimonic C-263 superalloy with a …

The insufficient infiltration of cutting fluid at the tool-chip contact interface during machining
poses a substantial challenge to achieving clean and efficient cutting processes. Key to …

The present work addresses the issue on power consumption in finish hard turning of die
steel under nanofluid-assisted minimum quantity lubrication condition. This study also aims …

High-strength materials are hard to machine with ordinary tools and necessitates tool inserts
of high strength and hardness to machine them. One of the methods to improve the physical …

To curtail the uses of cutting fluid, the preference for a dry machining environment has been
a continuous motivation for researchers using coated carbide tools. High strength AISI 4340 …