Study of Effects of MoS2 Nanofluid MQL Parameters on Cutting Forces and Surface Roughness in Hard Turning Using CBN Insert

Abstract: Lubrication and cooling in hard machining is an urgent and growing concern. The use of a suitable cooling lubrication condition is a crucial factor and has a great influence on the machining efficiency and the machined surface quality in hard machining. Among the proposed technological solutions, minimum quantity lubrication (MQL) using nano-cutting oils is a novel solution and its effectiveness has been proven for hard turning. This work aims to investigate the influence of MQL technological parameters using … Show more

“…The global growth of the manufacturing industry and increasing environmentally conscious consumer preferences compel researchers and production plants to seek alternatives to traditional cutting fluids [13]- [15]. Over the past decade, various techniques, such as wet machining, minimum quantity lubricants (MQL), cryogenic cooling, and solid lubricant-assisted machining, have emerged as environmentally friendly solutions [16]. While cutting fluids enhances machining quality through cooling and lubrication, flood cooling, a widely used method, is deemed inefficient from social, economic, and ecological perspectives.…”

Effect of cutting process using cutting insert of grade UTi20T

“…The global growth of the manufacturing industry and increasing environmentally conscious consumer preferences compel researchers and production plants to seek alternatives to traditional cutting fluids [13]- [15]. Over the past decade, various techniques, such as wet machining, minimum quantity lubricants (MQL), cryogenic cooling, and solid lubricant-assisted machining, have emerged as environmentally friendly solutions [16]. While cutting fluids enhances machining quality through cooling and lubrication, flood cooling, a widely used method, is deemed inefficient from social, economic, and ecological perspectives.…”

Effect of cutting process using cutting insert of grade UTi20T