Axial forces in polymer-solution liquid bridges remain capillarity-dominated at slow rates but rise with viscous dissipation at faster rates, forming filaments that delay rupture, with peak forces collapsing on capillary number and rupture distance on Weissenberg number.
A theoretical study of the liquid bridge forces between two rigid spherical bodies.Journal of colloid and interface science, 161(1):138–147
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Axial forces in capillary liquid bridges of polymer solutions
Axial forces in polymer-solution liquid bridges remain capillarity-dominated at slow rates but rise with viscous dissipation at faster rates, forming filaments that delay rupture, with peak forces collapsing on capillary number and rupture distance on Weissenberg number.