Viscoplastic ligaments can escape end-pinching through inertial-capillary reopening as viscosity approaches zero, unlike prior Newtonian predictions of breakup.
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2 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 2representative citing papers
Horizontal vibration generates a line of Faraday waves at the interface of stratified immiscible liquids; wave-tip breakup produces monodisperse droplets with critical acceleration scaling as N^{-1/2} ω^{*3/2}.
citing papers explorer
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End-pinching and inertial-capillary reopening in viscoplastic ligaments at low Ohnesorge number
Viscoplastic ligaments can escape end-pinching through inertial-capillary reopening as viscosity approaches zero, unlike prior Newtonian predictions of breakup.
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Interface Fragmentation via Horizontal Vibration: A Pathway to Scalable Monodisperse Emulsification
Horizontal vibration generates a line of Faraday waves at the interface of stratified immiscible liquids; wave-tip breakup produces monodisperse droplets with critical acceleration scaling as N^{-1/2} ω^{*3/2}.