Litcius/Paper detail

Materials with Electroprogrammable Stiffness

David J. Levine, Kevin T. Turner, James H. Pikul

2021Advanced Materials92 citationsDOIOpen Access PDF

Abstract

Stiffness is a mechanical property of vital importance to any material system and is typically considered a static quantity. Recent work, however, has shown that novel materials with programmable stiffness can enhance the performance and simplify the design of engineered systems, such as morphing wings, robotic grippers, and wearable exoskeletons. For many of these applications, the ability to program stiffness with electrical activation is advantageous because of the natural compatibility with electrical sensing, control, and power networks ubiquitous in autonomous machines and robots. The numerous applications for materials with electrically driven stiffness modulation has driven a rapid increase in the number of publications in this field. Here, a comprehensive review of the available materials that realize electroprogrammable stiffness is provided, showing that all current approaches can be categorized as using electrostatics or electrically activated phase changes, and summarizing the advantages, limitations, and applications of these materials. Finally, a perspective identifies state-of-the-art trends and an outlook of future opportunities for the development and use of materials with electroprogrammable stiffness.

Topics & Concepts

StiffnessMaterials scienceComputer scienceWearable computerRobotActuatorMechanical engineeringNanotechnologyEngineeringArtificial intelligenceEmbedded systemComposite materialAdvanced Sensor and Energy Harvesting MaterialsDielectric materials and actuatorsAdvanced Materials and Mechanics