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5754 Aluminum Sheet Deformed Along Bi-Linear Strain Paths

Published

Author(s)

Mark A. Iadicola, Lin Hu, Anthony D. Rollett, Timothy J. Foecke

Abstract

Sheet specimens of aluminum alloy 5754 were deformed along a series of bi-linear, equal-biaxial and uniaxial, strain paths while simultaneously measuring stress-strain behavior. Using the measured crystallographic texture before and after deformation, the VPSC model that incorporates texture evolution was used to simulate the flow stress and hardening behavior. Including latent hardening of multiple slip planes allowed the model to explain the decrease in flow stress when changing from equal-biaxial to uniaxial deformation. However, the model did not capture the details of the drop in flow stress nor the magnitude of the plastic hardening after the change in deformation mode. This is likely due to room temperature recovery between the two steps of testing.
Proceedings Title
Numisheet 2011: Proceedings of the 8th International Conference and Workshop on Numerical Simulation of 3D Sheet Metal Forming Processes
Volume
1383
Conference Dates
August 21-26, 2011
Conference Location
Seoul
Conference Title
Numisheet 2011

Keywords

5754 Aluminum, bi-linear straining, crystal plasticity, strain path change, texture

Citation

Iadicola, M. , Hu, L. , Rollett, A. and Foecke, T. (2011), 5754 Aluminum Sheet Deformed Along Bi-Linear Strain Paths, Numisheet 2011: Proceedings of the 8th International Conference and Workshop on Numerical Simulation of 3D Sheet Metal Forming Processes, Seoul, -1, [online], https://doi.org/10.1063/1.3623624 (Accessed October 14, 2024)

Issues

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Created September 29, 2011, Updated November 10, 2018