Paper Title:
3D FEM Modeling of Ball End Milling of HSM H13 Die Steel with Cutter Inclination
  Abstract

This paper outlines the development of a 3D finite element model (FEM) for the H13 milling, Deform 3D software was used for ball end milling simulation. A milling force experiment was carried out under the same cutting conditions with the simulation. The results showed that the simulated cutting force agreed well with the experimental data. The proposed method of 3D FEM can be used to correctly simulate the HSM milling process, so as to optimize cutting parameters.

  Info
Periodical
Advanced Materials Research (Volumes 189-193)
Edited by
Zhengyi Jiang, Shanqing Li, Jianmin Zeng, Xiaoping Liao and Daoguo Yang
Pages
1551-1554
DOI
10.4028/www.scientific.net/AMR.189-193.1551
Citation
L. D. Wang, J. Zhao, Y. G. Jiang, "3D FEM Modeling of Ball End Milling of HSM H13 Die Steel with Cutter Inclination", Advanced Materials Research, Vols. 189-193, pp. 1551-1554, 2011
Online since
February 2011
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Z.P. Xue, Yan Shen Xu, Wen Tie Niu, Y.C. Li, H. Dong
441
Authors: Hai Jun Qu, Gui Cheng Wang, Hong Jie Pei, Qin Feng Li, Yun Ming Zhu
Abstract:The cutting-direction burr is one of the important factors that influence the edge quality and performance of precision parts. The...
249
Authors: Wei Zhang, Min Li Zheng, Ming Ming Cheng, Quan Wan
Abstract:By using experiment cutter edge topography obtained by super depth three-dimension microscope, fits the cutter edge curve and calculate...
86
Authors: Shi Wu, D.K. Jia, X.L. Liu, Y.C. Jiang, Y.F. Li
Abstract:In this paper, modal analysis of ball end mills is modeled by finite element to work out natural frequency and chatter model in tooling...
150
Authors: Xing Fa Zhao, Xian Li Liu, Fei Xiao, Yan Xin Wang, Yan Cui Jiang
Abstract:As cutter radial runout and deformation play a main role in processing precision, surface roughness and cutter wear during hard milling, the...
284