Analysis, FEM simulation and experimental verification of gear cold extrusion
Published 2004-12-20
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Keywords
- Gear extrusion,
- Upper Bound,
- FEM simulation,
- experiment
How to Cite
This work is licensed under a Creative Commons Attribution 4.0 International License.
Abstract
The purpose of this paper is to present the theoretical and experimental investigation of radial cold extrusion of gear-like elements. In the theoretical analysis Upper Bound solution for load and average pressure prediction has been developed. Furthermore, simulation of radial extrusion of geared part has been performed by FEM, using MSC.Marc 2001 simulation program package. Due to axial symmetry of the problem, numerical simulation was carried out over one twelfth of the cylindrical billet. Tetrahedral body mesh using higher order elements enabled the simulation to run to completion without remeshing. Values of reaction forces summarized over appropriate nodes gave final force - stroke diagram including the final steep load rise coming from simulated corner filling phenomenon. Finally, experiments were carried out with the aim to verify theoretical prediction and FEM simulation. Obtained results are compared and analysed. As it has been shown, experimental verification gives well agreeable results to the analysis and FEM simulation, except for the final extrusion phase (corner filling) when Upper Bound prediction underestimates the real load values.
