Origami structures with morphing behaviours and unique mechanical properties are useful
in aerospace deployable structures, soft robots and mechanical metamaterials. Curved …

Motivated by the growing demand to integrate functional oxides with dissimilar materials,
numerous studies have been undertaken to detach a functional oxide film from its original …

In recent years, there has been a surge of interest in the design of mechanical metamaterials
for different science and engineering applications. In particular, various computational …

Folding paper along curves leads to spatial structures that have curved surfaces meeting at
spatial creases, defined as curve-fold origami. In this work, we provide an Eulerian …

Multi-stable structures capable of rapid switching among different stable states have seen
applications in various fields such as energy absorption, mechanical computing, and soft …

The use of origami in engineering has significantly expanded in recent years, spanning
deployable structures across scales, folding robotics and mechanical metamaterials …

We combine theory and experiments to explore the kinematics and actuation of intrinsically
curved folds (ICFs) in otherwise developable shells. Unlike origami folds, ICFs are not …

In this paper, a novel framework is proposed for the structural analysis of large origami
structures. The first order shear deformation theory of plates (FSDT) is employed to consider …

Curved origami featuring curved tiles can store elastic energy and bias the structure toward
a desired shape when subjected to appropriate constraints. Without constraints, however, a …

Moir $\'{e} $ patterns, typically formed by overlaying two layers of two-dimensional materials,
exhibit an effective long-range periodicity that depends on the short-range periodicity of …