| Popis: |
We investigate the quasistatic evolution problem for a two-phase viscoelastic material at finite strains. Phase evolution is assumed to be irreversible as one phase accretes in time in its normal direction, at the expense of the other. Mechanical response depends on the phase, and growth is influenced by the mechanical state at the boundary of the accreting phase, making the model to be fully coupled. This setting is inspired by the early stage development of solid tumors, as well as by the swelling of polymer gels. We formulate the evolution problem by coupling the quasistatic balance of momenta in weak form and the growth dynamics in the viscosity sense. Both a diffused- and a sharp-interface variant of the model are proved to admit solutions. |
