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Encoding multiple permanent shapes in 3D printed structures

Katherine S. Riley, Karl Jin Ang, Katie A. Martin, Wan Kyn Chan, Jakob A. Faber, Andres F. Arrieta

2020Materials & Design46 citationsDOIOpen Access PDF

Abstract

Conventional methods of programmed shape change in polymers are one-way and one-time only. We introduce a new method of combining a bioinspired, hierarchical architecture with the pre-strain generated by extrusion-based 3D printing to encode multiple permanent shapes in thermoplastic polymer shell structures. At high temperature, these structures are multistable and can snap repeatedly between all encoded permanent shapes without reprogramming. At low temperature, the structures are monostable with increased stiffness; the multistability can be switched on and off via temperature. Characterization studies are performed to determine how to control the level of pre-strain and the deflection behavior of the structure to enable finite element modeling for analysis and design. This pre-straining technique may be thought of as a virtual mold: printed structures are initially flat but have multiple permanent shapes encoded. Taking advantage of the geometric freedom of 3D printing, complex geometries, and pre-strain fields may be used to create highly tailored snapping structures. Thermoplastic filaments with added particles may be used to impart additional multifunctionality to the structures, such as magnetic responsiveness, to enable remote actuation. These switchable multistable structures have potential applications in fields including robotics, aerospace, and smart buildings.

Topics & Concepts

3D printingMaterials scienceMultistabilityMorphingFinite element methodShape-memory polymerThermoplasticDeflection (physics)Smart materialRoboticsSoft roboticsMechanical engineeringNanotechnologyShape-memory alloyComputer scienceStructural engineeringActuatorComposite materialRobotArtificial intelligenceEngineeringQuantum mechanicsNonlinear systemOpticsPhysicsAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting MaterialsModular Robots and Swarm Intelligence
Encoding multiple permanent shapes in 3D printed structures | Litcius