Implicit Time-Marching for Lagrange Multiplier Formulation for Couple Stress Elastodynamics

The study of metamaterials and architected materials has increased interest in continuum mechanics models that capture size-dependent microstructure interactions. Among these, Consistent Couple-Stress Theory (C-CST) accounts for mechanical interactions at the microscale adding higher-order derivatives in the strain energy. Previous studies have explored the dynamics of C-CST using methods such as convolutional principles or inverse Laplace transforms to obtain time-dependent solutions. In contrast, our results show that implicit time integration, applied to a mixed finite element method with a Lagrange multiplier, provides direct time-domain solutions for dynamic C-CST modeling and ensures solution stability. In particular, the proposed finite element scheme is verified in comparison with results from previous literature, by employing the Method of Manufactured Solutions in the static case and dynamic simulations of simple cases. The approach presented introduces new tools for studying size-dependent material behavior, laying the groundwork for further applications in advanced material design and wave propagation studies.