Magnetic Microactuators Based on Particle Jamming
Journal
ACS Materials Letters
Journal Volume
6
Journal Issue
10
Start Page
4748
End Page
4755
ISSN
2639-4979
2639-4979
Date Issued
2024-09-20
Author(s)
Khalil ur Rehman
Jeyavelan Muthu
Radha Raman
Ian Daniell Santos
Bhartendu Papnai
Ya-Ping Hsieh
Abstract
Magnetic microactuators and microrobots have the potential to revolutionize remote manipulation and swarm-based collaboration. Unfortunately, conventional approaches to controlling individual magnetic systems cannot be scaled down to the microscale due to fundamental challenges in the generation and modification of magnetic fields. We here demonstrate a novel actuation mechanism that imparts magnetic microactuators with an unprecedented ease of fabrication and dimensional scalability. Through mechanical jamming in binary particle mixtures, magnetic ordering, and pronounced anisotropy could be induced. Combined simulation and experimental investigation confirm the importance of arresting forces from neighboring particles as the origin of this behavior. This sensitivity of magnetic properties to assembly morphology can be exploited to produce novel actuators that utilize minute changes in particle size or pressure. We demonstrate the transduction of particle swelling into magnetic torque locking that enables active magnetic control in microrobots for future remote operating applications.
Publisher
American Chemical Society (ACS)
Type
journal article