Effective continuum models for the buckling of non-periodic architected sheets that display quasi-mechanism behaviors

Abstract: In this work, we construct an effective continuum model for architected sheets that are composed of bulky tiles connected by slender elastic joints. Due to their mesostructure, these sheets feature quasi-mechanisms -low-energy local kinematic modes that are strongly favored over other deformations. In sheets with non-uniform mesostructure, kinematic incompatibilities arise between neighboring regions, causing out-of-plane buckling. The effective continuum model is based on a geometric analysis of the sheets' u… Show more

“…What about the role of heterogeneity [26,27,36,37]? Can coarsegraining lead to constitutive models for mechanical metamaterials, common to practical engineering [38,39], or to effective descriptions of their dynamics [40]? While there are many avenues left to explore, our work on the soft modes of planar kirigami highlights new physics and is a convincing step towards the discovery of a continuum theory for mechanical metamaterials at large.…”

Continuum field theory for the deformations of planar kirigami

“…What about the role of heterogeneity [26,27,36,37]? Can coarsegraining lead to constitutive models for mechanical metamaterials, common to practical engineering [38,39], or to effective descriptions of their dynamics [40]? While there are many avenues left to explore, our work on the soft modes of planar kirigami highlights new physics and is a convincing step towards the discovery of a continuum theory for mechanical metamaterials at large.…”

Continuum field theory for the deformations of planar kirigami