Tool-Chip Friction and Two-Dimensional Numerical Simulation Analysis of High-Speed Milling AISI304


Article Preview

The physical friction system model was established between the tool and the chip based on the analysis of tri-bological behavior of high speed milling process of the end mill. The finite element simulation method was employed to study the tool-chip friction model, and the two-dimensional(2D) finite element model of milling was created. The numerical results revealed the chip morphology, stress and temperature distribution of the tool-chip contact surface. The tool temperature field distribution provided supports for tool-chip friction state theory and the 3D milling model.



Edited by:

Seung-Bok Choi and Yun-Hae Kim




L. L. Guo et al., "Tool-Chip Friction and Two-Dimensional Numerical Simulation Analysis of High-Speed Milling AISI304", Advanced Materials Research, Vol. 1089, pp. 377-380, 2015

Online since:

January 2015




* - Corresponding Author

[1] Xiao Wang, Shubin Lu: Lubrication and Seal Engineering Vol. 1 (2007), p.129. (In Chinese).

[2] Guangjun Liu, Guangyu Tan: High Technology Letters Vol. 10(2012), p.1097. (In Chinese).

[3] Liangde Wang, Jun Zhao: Advanced Materials Research Vol. 6(2011), p.189.

[4] Guangyu Tan, Qingshan Liu, Can Liu, Guanghui Li: Mechanical Science and Technology Vol. 11(2012), p.1735. (In Chinese).

[5] Ling Ling, Xingxing Li, Xuelin Wang, Yujin Hu: The Chinese mechanical engineering Vol. 9(2012), p.1143. (In Chinese).

Fetching data from Crossref.
This may take some time to load.