论文信息 - Phenomenological and micromechanical viscoplastic laws applied to high strain rate deformations of plates

Phenomenological and micromechanical viscoplastic laws applied to high strain rate deformations of plates

In the inelastic dynamic response of structures it is important to investigate the strain rate sensitivity of the material. As long as overstresses can develop depending on the deformation velocity, viscoplastic laws should be taken into account in the theoretical and numerical modeling. Hence, material parameters have to be identified for high strain rates. In this study the material parameter identification processes and their consequences on finite element simulations for two material models based on phenomenological and micromechanical approaches are compared with each other. The aim is to determine which model predicts high strain rate deformations of shock wave loaded plates most realistically.

Marcus Stoffel | M. Stoffel

[1] S. R. Bodner,et al. Constitutive Equations for Elastic-Viscoplastic Strain-Hardening Materials , 1975 .

[2] M. Gurtin. On a framework for small-deformation viscoplasticity: free energy, microforces, strain gradients , 2003 .

[3] M. Stoffel. Evolution of plastic zones in dynamically loaded plates using different elastic–viscoplastic laws , 2004 .

[4] J. McMahon,et al. Viscoplasticity based on overstress with a differential growth law for the equilibrium stress , 1986 .

[5] U. S. Lindholm,et al. Mechanical behavior of materials under dynamic loads , 1968 .

[6] D. Weichert,et al. A refined theory of elastic-plastic shells at moderate rotations , 1989 .

[7] J. Chaboche,et al. Mechanics of Solid Materials , 1990 .

[8] S. Tanimura. A practical constitutive equation covering a wide range of strain rates , 1979 .