Estimation of Minimum Uncut Chip Thickness during Precision and Micro-Machining Processes of Various Materials-A Critical Review

Evaluation of the phenomena characterizing the chip decohesion process during cutting is still a current problem in relation to precision, ultra-precision, and micro-machining processes of construction materials. The reliable estimation of minimum uncut chip thickness is an especially challenging task since it directly affects the machining process dynamics and formation of a surface topography. Therefore, in this work a critical review of the recent studies concerning the determination of minimum uncut chip thickness during precision, ultra-precision, and micro-cutting is presented. The first part of paper covers a characterization of the precision, ultra-precision, and micro-cutting processes. In the second part, the analytical, experimental, and numerical methods for minimum uncut chip thickness estimation are presented in detail. Finally, a summary of the research results for minimum uncut chip thickness estimation is presented, together with conclusions and a determination of further research directions.

Automated summary

This paper presents a critical review of recent studies on determining the minimum uncut chip thickness during precision, ultra-precision, and micro-cutting processes. The paper covers the characteristics of these cutting processes and discusses various analytical, experimental, and numerical methods for estimating the minimum uncut chip thickness. The paper concludes with a summary of research results and directions for future research.