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Conference paper

Finite  Element  Modeling  and  Process  Performance  of  Micro  End‐Milling  of Aluminum 6082‐T6

In Proceedings of the 17th International Conference of the European Society for Precision Engineering and Nanotechnology — 2017

By Davoudinejad, A.1,2; Tosello, G.1,2; Annoni, M.3

From

Department of Mechanical Engineering, Technical University of Denmark1

Manufacturing Engineering, Department of Mechanical Engineering, Technical University of Denmark2

Polytechnic University of Milan3

This study investigates the micro end‐milling process by using a 3D finite element modeling (3D FEM) approach. The FE model is developed for contouring up-milling operation to predict chip flow, burr formation and cutting forces. Different cutting conditions were simulated in order to investigate the influence of process variables that might be difficult or even impossible to follow in the physical experiments, particularly at this scale. 3D simulations of chip flow and temperature distribution are compared in various cutting conditions.

The results of the burr formation and cutting forces predictions are compared against the experiments. The correlations were observed in terms of burr dimension trends and force profile shapes and magnitude.

Language: English
Publisher: The European Society for Precision Engineering and Nanotechnology
Year: 2017
Proceedings: euspen’s 17th International Conference & Exhibition
ISBN: 0995775109 and 9780995775107
Types: Conference paper
ORCIDs: Davoudinejad, A. and Tosello, G.
Keywords

3D finite element modeling Burr formation Chip formation Cutting force Micro End‐Milling

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