Higher polymerization degree of polymeric solvents prevents creasing in swelling polymer gels by reducing mixing entropy and modifying osmotic pressure to decouple swelling from mechanical instability.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
fields
cond-mat.soft 3representative citing papers
Experiments reveal hysteresis in freeze-thaw cycles: polystyrene particles progressively drift away from their starting positions while oil droplets return to theirs, showing qualitative agreement with prior theory and robust droplet deformation reversibility.
Experiments reveal that bubble nucleation at the solidification front is controlled by a characteristic time set by competing gas diffusion, nucleation kinetics, growth, and front advance, allowing estimation of the critical gas concentration in carbonated water.
citing papers explorer
-
Polymeric Solvents Control Swelling-Induced Surface Creasing
Higher polymerization degree of polymeric solvents prevents creasing in swelling polymer gels by reducing mixing entropy and modifying osmotic pressure to decouple swelling from mechanical instability.
-
Hysteresis in the freeze-thaw cycle of emulsions and suspensions
Experiments reveal hysteresis in freeze-thaw cycles: polystyrene particles progressively drift away from their starting positions while oil droplets return to theirs, showing qualitative agreement with prior theory and robust droplet deformation reversibility.
-
Coupled gas and bubble dynamics at the solidification front
Experiments reveal that bubble nucleation at the solidification front is controlled by a characteristic time set by competing gas diffusion, nucleation kinetics, growth, and front advance, allowing estimation of the critical gas concentration in carbonated water.