Magnetoactive asymmetric mechanical metamaterial for tunable elastic cloaking

“…Such postulation does not allow unsupervised damage resilience during the service life of the metamaterials by active reconfiguration of the stress field depending on the random and unpredictable evolution of damage. Though a recent study has proposed magnetoactive mechanical metamaterial for tunable elastic cloaking [56], the central limitation of knowing a fixed location of damage a priori persists. Here, we aim to propose a radically different approach by introducing piezoelectric lattices where the effect of the random appearance of any damage can be shielded through active multi-physically controlled cloaks by voltage-dependent modulation of the stress fields within the cloaking region.…”

Active mechanical cloaking for unsupervised damage resilience in programmable elastic metamaterials

“…Such postulation does not allow unsupervised damage resilience during the service life of the metamaterials by active reconfiguration of the stress field depending on the random and unpredictable evolution of damage. Though a recent study has proposed magnetoactive mechanical metamaterial for tunable elastic cloaking [56], the central limitation of knowing a fixed location of damage a priori persists. Here, we aim to propose a radically different approach by introducing piezoelectric lattices where the effect of the random appearance of any damage can be shielded through active multi-physically controlled cloaks by voltage-dependent modulation of the stress fields within the cloaking region.…”

Active mechanical cloaking for unsupervised damage resilience in programmable elastic metamaterials

Magnetically tunable topological states in translational-rotational coupling metamaterials

Propagation of solitary waves in origami-inspired metamaterials