TITLE:
An Inverse Analysis of the Erichsen Test Applied for the Automatic Identification of Sheet Materials Behavior
AUTHORS:
Adinel Gavrus, Mihaela Banu, Eric Ragneau, Catalina Maier
KEYWORDS:
Drawing Process, Finite Element Model, Inverse Analysis, Erichsen Test
JOURNAL NAME:
Engineering,
Vol.2 No.7,
July
23,
2010
ABSTRACT: Among the technological tests, the Erichsen drawing test gives a more appropriate material behavior, near the limit of the real manufactured process. In this paper an inverse finite element analysis of the Erichsen test is proposed. The new idea is to use a numerical simulation of the experimental test for the rheological identification of the constitutive equations available for sheet metals alloys. The inverse analysis is based on a robust optimization algorithm and uses simultaneously the experimental test data and the corresponding numerical one. A numerical inverse analysis software named OPTPAR was developed and improved for an automatically coupling with a commercial finite element code charged to simulate the experimental test. Results obtained for a virtual steel alloy will be analyzed numerically in order to validate the finite element model and the identification method. An application to an AA5182 aluminum alloy and a DC03 steel alloy will be presented.