Energy conservation and emission reduction is an essential consideration in sustainable
manufacturing. However, the traditional optimization of cutting parameters mostly focuses on …

Cutting quality and production cleanliness are main aspects to be considered in the
machining process, and determining the optimal cutting parameters is a significant measure …

The application of AISI 304 austenitic stainless steel in various industrial fields has been
greatly increased, but poor machinability classifies AISI 304 as a difficult-to-cut material. This …

The machinability of stainless steel has attracted considerable interest because of its high
strength and corrosion resistance. Cutting fluids-based oil are the most unsustainable …

The present study aims at investigating the influence of the different machining parameters
represented by the cutting speed (V c), the depth of cut (ap), and the feed rate (f) on the …

In the present work Taguchi method is used to optimize cutting parameters during dry
turning of AISI 304 austenitic stainless steel with AlTiCrN coated tool. The coating was …

Increasing the quality of a machined product and minimizing energy consumption is a
primary objective for all industries, given their significant impact on manufacturing costs and …

Reducing energy usage is an essential consideration in sustainable manufacturing. In the
past, metal cutting operations have been mainly optimized based on economical and …

This study focuses on optimization of cutting conditions and modeling of cutting force (F c),
power consumption (P), and surface roughness (R a) in machining AISI 1040 steel using …

In this study, the effects of different machining parameters such as cutting speed (Vc), feed
rate (f), and cutting depth (ap) on surface roughness and tool flank wear in turning of AISI …