Experimental And Numerical Analysis Of The Tensile Test Using Sheet Specimens
Abstract
This paper presents an experimental and numerical study of the mechanical
behaviour of SAE 1045 steel sheet specimens during the conventional tensile test. Due to the
complex stress state that develops at the neck for high levels of axial deformation, an
experimental-numerical methodology is proposed in order to derive the elastic and hardening
parameters which characterize the material response. Such methodology is essentially an
extension to sheet samples of the well established procedure used for cylindrical ones. The
simulation of the deformation process during the whole test is performed with a finite element
large strain elastoplasticity-based formulation. Finally, the experimental validation of the
obtained numerical results allows to assess the performance of the proposed methodology for
the 3D analysis of sheet specimens and, in addition, to discuss the range of applicability of
plane stress conditions.
behaviour of SAE 1045 steel sheet specimens during the conventional tensile test. Due to the
complex stress state that develops at the neck for high levels of axial deformation, an
experimental-numerical methodology is proposed in order to derive the elastic and hardening
parameters which characterize the material response. Such methodology is essentially an
extension to sheet samples of the well established procedure used for cylindrical ones. The
simulation of the deformation process during the whole test is performed with a finite element
large strain elastoplasticity-based formulation. Finally, the experimental validation of the
obtained numerical results allows to assess the performance of the proposed methodology for
the 3D analysis of sheet specimens and, in addition, to discuss the range of applicability of
plane stress conditions.
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ISSN 2591-3522