The knowledge of cutting forces in various machining processes is of great importance not
only for the designer-manufacturer of machine tools, but also for the user, since the cutting …

This paper presents a comprehensive review of the concept of machinability by considering
the dynamic, tribological, and thermo-mechanical interactions encountered at the tool-chip …

Minimum quantity lubrication (MQL) is a replacement for dry machining in which a minimum
quantity of lubricant fluid is mixed up with compressed air and sprayed periodically on the …

The machinability of materials is highly affected by their hardness, and it affects power
consumption, cutting tool life as well as surface quality while machining the component. This …

Tool wear during machining has been seen to result in changes in tool geometry, which
adversely affect the performance characteristic of the process. Various force models have …

Accurate cutting force prediction is crucial in improving machining precision and surface
quality in the micro-milling process, in which tool wear and runout are essential factors. A …

Cutting force is a critical factor that reflects the machining states and affects tool wear, cutting
stability, and the quality of the machined surface. Accurate prediction of cutting force has …

DLC has been applied as coating material in the machining of difficult-to-cut materials, and
shows a good cutting performance. In this study, Cr/W-DLC/DLC-coated tools were …

This study attempts to develop a micro-milling force model under cutting conditions
considering tool flank wear effect during micro-milling of nickel-based superalloy with coated …

In the industrial manufacturing, the wear of the cutting tool represents the main factor that
causes machine downtime and it has a negative influence over the machined surface …