A system of n screw dislocations in an isotropic crystal undergoing antiplane shear is studied in the framework of linear elasticity. Imposing a suitable boundary condition for the strain, namely requesting the non-vanishing of its boundary integral, results in a confinement effect. More precisely, in the presence of an external strain with circulation equal to n times the lattice spacing, it is energetically convenient to have n distinct dislocations lying inside the crystal. The result is obtained by formulating the problem via the core radius approach and by studying the asymptotics as the core size vanishes. An iterative scheme is devised to prove the main result. This work sets the basis for studying the upscaling problem, i.e., the limit as n → ∞, which is treated in [17].
Lucardesi, I., Morandotti, M., Scala, R., Zucco, D. (2018). Confinement of dislocations inside a crystal with a prescribed external strain. RIVISTA DI MATEMATICA DELLA UNIVERSITÀ DI PARMA, 9(2), 283-327.
Confinement of dislocations inside a crystal with a prescribed external strain
Scala R;
2018-01-01
Abstract
A system of n screw dislocations in an isotropic crystal undergoing antiplane shear is studied in the framework of linear elasticity. Imposing a suitable boundary condition for the strain, namely requesting the non-vanishing of its boundary integral, results in a confinement effect. More precisely, in the presence of an external strain with circulation equal to n times the lattice spacing, it is energetically convenient to have n distinct dislocations lying inside the crystal. The result is obtained by formulating the problem via the core radius approach and by studying the asymptotics as the core size vanishes. An iterative scheme is devised to prove the main result. This work sets the basis for studying the upscaling problem, i.e., the limit as n → ∞, which is treated in [17].
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https://hdl.handle.net/11365/1087436