Incremental sheet forming (ISF) is a process that can produce sheet metal components with
a series of stepwise small incremental deformation. This literature paper presents a …

Trochoidal milling has gained popularity in high-speed milling owing to its ability to reduce
cutting force, accelerate thermal dissipation, and increase tool life. Nevertheless, it has the …

Burrs produced by end micromilling are difficult to remove because they lie along the edge
of the slot and are attached to the machined component. Furthermore, they represent one of …

Trochoidal milling is known for its advantages in machining difficult-to-machine materials as
it facilitates chip removal and tool cooling. However, the conventional trochoidal tool path …

Trochoidal milling is a widely used technique in high-speed machining. In the recent period,
several theoretical and experimental studies have been performed to analyze the cutting …

Trochoidal milling is an efficient strategy for the rough machining of difficult-to-cut materials.
The true trochoidal toolpath has C 2 continuity and avoids sharp changes in engagement …

Trochoidal milling has become popular in high-speed milling due to its ability to reduce
cutting force, enhance thermal dissipation, and prolong tool life. Among other toolpath …

Cooling–lubricating processes have a big impact on cutting force, tool wear, and the quality
of the machined surface, especially for hard-to-machine superalloys, so the choice of the …

Trochoidal milling is an efficient machining technique that extends tool life and is widely
used for slotting hard-to-cut materials. It offers the advantage of reducing cutting force, heat …

TC11 impeller blades are typical complex curved surface components. Due to the complex
machining load variations, these types of components have always been difficult to …