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A Modeling Framework for Jamming Structures

Buse Aktaş, Yashraj Narang, Nikolaos Vasios, Katia Bertoldi, Robert D. Howe

2021Advanced Functional Materials87 citationsDOI

Abstract

Abstract Jamming is a structural phenomenon that provides tunable mechanical behavior. A jamming structure typically consists of a collection of elements with low effective stiffness and damping. When a pressure gradient, such as vacuum, is applied, kinematic and frictional coupling increase, resulting in dramatically altered mechanical properties. Engineers have used jamming to build devices from tunable‐stiffness grippers to tunable‐damping landing gear. This study presents a rigorous framework that systematically guides the design of jamming structures for target applications. The force‐deflection behavior of major types of jamming structures (i.e., grain, fiber, and layer) in fundamental loading conditions (e.g., tension, shear, and bending) is compared. High‐performing pairs (e.g., grains in compression, layers in shear, and bending) are identified. Parameters that go into designing, fabricating, and actuating a jamming structure (e.g., scale, material, geometry, and actuator) are described, along with their effects on functional metrics. Two key methods to expand on the design space of jamming structures are introduced: using structural design to achieve effective tunable‐impedance behavior in specific loading directions, and creating hybrid jamming structures to utilize the advantages of different types of jamming. Collectively, this study elaborates and extends the jamming design space, providing a conceptual modeling framework for jamming‐based structures.

Topics & Concepts

JammingMaterials scienceStiffnessDeflection (physics)Structural engineeringMechanical engineeringComputer scienceComposite materialEngineeringOpticsPhysicsThermodynamicsCellular Mechanics and InteractionsAdvanced Sensor and Energy Harvesting MaterialsSoft Robotics and Applications
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