Reprogrammable Self-Folding Thermoplastic Sheets Using Elastic Filaments

Abstract: Materials that fold into new shapes have diverse applications in packages, remote deployment of objects, robotic actuators, and transformative toys. There are a variety of mechanisms to induce folding in materials. In this paper, we take inspiration from how humans fold their limbs at joints using tensile stress from filaments (i.e., muscle fibers) that actuate rigid bodies (i.e., bones surrounded by tissue). We mimic this mechanism using strained elastic filaments to fold plastic sheets subjected to uniform h… Show more

“…While thermal expansion mismatch in bilayer or multilayer systems is often used to drive the shape change of active origami, heat has been used in other ways to actuate origami. For example, as temperature increases, polymers tend to soften, which has been taken advantage of for origami structures, such as the heating of polymer at pre-stressed metallic hinges of microgrippers, [186,318] polymer sheets with reduced-thickness patterned hinges and stretched rubber bands which actuate structures upon hinge softening, [319] as well as the folding of graphene polyhedrons as a result of melting its polymer hinges. [320] Instances of the incorporation of graphene with bilayers in active origami have been demonstrated.…”

Active Materials for Functional Origami

“…While thermal expansion mismatch in bilayer or multilayer systems is often used to drive the shape change of active origami, heat has been used in other ways to actuate origami. For example, as temperature increases, polymers tend to soften, which has been taken advantage of for origami structures, such as the heating of polymer at pre-stressed metallic hinges of microgrippers, [186,318] polymer sheets with reduced-thickness patterned hinges and stretched rubber bands which actuate structures upon hinge softening, [319] as well as the folding of graphene polyhedrons as a result of melting its polymer hinges. [320] Instances of the incorporation of graphene with bilayers in active origami have been demonstrated.…”

Active Materials for Functional Origami