Litcius/Paper detail

Leveraging the Snap Buckling of Bistable Magnetic Shells to Design a Refreshable Braille Dot

Arefeh Abbasi, Tian Chen, Bastien F.G. Aymon, Pedro M. Reis

2023Advanced Materials Technologies24 citationsDOIOpen Access PDF

Abstract

Abstract A design concept is proposed for the building block, a dot , of programmable braille readers utilizing bistable shell buckling, magnetic actuation, and pneumatic loading. The design process is guided by Finite Element simulations, which are initially validated through precision experiments conducted on a scaled‐up, single‐shell model system. Then, the simulations are leveraged to systematically explore the design space, adhering to the standardized geometric and physical specifications of braille systems. The findings demonstrate the feasibility of selecting design parameters that satisfy both geometric requirements and blocking forces under moderate magnetic fields, facilitated by pneumatic loading to switch between the two stable states. While the study is focused on experimentally validated numerical simulations, it is also identify several manufacturing challenges that need to be resolved for future physical implementations .

Topics & Concepts

BrailleBistabilityFinite element methodBlock (permutation group theory)Shell (structure)BucklingComputer scienceImplementationProcess (computing)Mechanical engineeringStructural engineeringSimulationEngineeringMaterials scienceProgramming languageGeometryMathematicsOptoelectronicsOperating systemAdvanced Materials and MechanicsTactile and Sensory InteractionsSoft Robotics and Applications