Viscous peeling of embedded elastic structures by pressurized fluid creates dynamic microchannel networks and soft actuators, with a nonlinear model matching experimental demonstrations of valves and transient dynamics from mm to micron scales.
(2010) Integrated elastomeric components for autonomous regulation of sequential and oscillatory flow switching in microfluidic devices
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Leveraging viscous peeling in soft actuators and reconfigurable microchannel networks
Viscous peeling of embedded elastic structures by pressurized fluid creates dynamic microchannel networks and soft actuators, with a nonlinear model matching experimental demonstrations of valves and transient dynamics from mm to micron scales.