A model for plastic deformation and phase transformations of zirconium under high-rate loading

Autor: Q. H. Zuo, F L Addessio, E. N. Harstad, Carl Greeff
Rok vydání: 2006
Předmět:
Zdroj: Modelling and Simulation in Materials Science and Engineering. 14:1465-1484
ISSN: 1361-651X
0965-0393
DOI: 10.1088/0965-0393/14/8/012
Popis: A constitutive model which considers both plastic deformation and solid–solid phase transformations has been developed for zirconium under high-rate loading. Within the multiphase mixture regime, a lower-bound (Ruess) or uniform-stress assumption is used. It also is assumed that coexisting phases are in thermal equilibrium. The plastic deformation of the mixture is given by the contributions of individual phases. Each phase has a separate plastic yield surface, which evolves (strain-hardening) according to the plastic strain accumulated in the phase. A novel, fully implicit numerical algorithm for the plastic response of multiphase materials with separate yield surfaces is developed. The model is validated using data for plate impact experiments on a zirconium target. Simulations also are provided to demonstrate the ability of the model to capture the relevant aspects of the high-strain-rate deformation of a zirconium plate loaded with explosives. The numerical results indicate that the phase histories of the material under a general, three-dimensional (3D) stress state can be very complicated and cannot be anticipated without a detailed 3D calculation including the effects of phase transformations. The results presented here may have an important implication in designing systems involving zirconium for high-rate applications.
Databáze: OpenAIRE
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