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Kinetically Tunable, Active Auxetic, and Variable Recruitment Active Textiles from Hierarchical Assemblies

Rachael Granberry, Justin Barry, Brad Holschuh, Julianna Abel

2021Advanced Materials Technologies35 citationsDOI

Abstract

Abstract Multifunctional textiles with programmable, multi‐axial, distributed, and scalable actuation are highly desirable and presently unrealized. 1D torque‐unbalanced active yarns within 2D textile structures are exploited to produce soft and scalable active textiles that exhibit tunable displacements, forces, stiffnesses, and kinematic deformations. Through a textile hierarchy spanning active material composition, yarn construction, textile geometry, and system architecture, these active textiles accomplish kinetic tunability, variable recruitment behaviors, and auxetic effects without mechanical contact, called active auxetic effects. New modes of pre‐programmed multi‐axial performance are enabled by geometrically manipulating—specifically pre‐stressing and constraining—active filaments in torsion and leveraging their structural elastic instability within a textile geometry. The new kinematic motion afforded by torque‐unbalanced active yarns enhances the performance of active textiles, which accomplish tensile strokes over 40%, generated blocked forces up to 308 N m −1 , and specific work over 0.4. kJ kg −1 . Advances in active textiles are demonstrated through multifunctional 3D applications, including a variable constriction pump that exhibits sequential actuation, a wearable that conforms multi‐axially around the body, and a soft exoskeleton that performs assistive motions and on‐body anchoring simultaneously. By harnessing the capabilities of active materials within a textile hierarchy, advances in the potentiality of multifunctional textiles are presented.

Topics & Concepts

Materials scienceAuxeticsTextileKinematicsTorqueHierarchyMechanical engineeringComputer scienceStructural engineeringComposite materialEngineeringPhysicsEconomicsClassical mechanicsThermodynamicsMarket economyAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting MaterialsPolymer composites and self-healing
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