Concentration Regimes for Extensional Relaxation Times of Unentangled Polymer Solutions

Abstract: We study the extensional flow properties of polyacrylamide (PAM) solutions with various molecular weights and dispersities using a dripping-onto-substrate (DoS) protocol. A recent study [Dinic and Sharma, Macromolecules 2020, 53, 4821−4835] suggested that coil−stretch hysteresis, which occurs when the drag coefficient ratio of stretched and coiled polymer chains ς s /ς c > 4.5, controls the scaling exponent of the extensional relaxation time λ E with concentration. Here, we test this hypothesis by varying ς … Show more

“…Unlike CaBER or Trimaster or FISER, the DoS protocols involve no moving parts and therefore, allow analysis of low viscosity and low elasticity fluids as the same interplay of stresses that is relevant for jetting, CaBER or dripping drives capillarity-driven pinching dynamics in DoS rheometry. The robustness and utility of this frugal technique has resulted in its increasing use for studying the extensional rheology response of polymer solutions and macromolecular biological fluids, 88,89,153,154,171–177 but a thorough examination of the influence of interfacial rheology, complexation between polymers and other ingredients, and adsorption kinetics are also warranted.…”

Pinching dynamics, extensional rheology, and stringiness of saliva substitutes

“…Unlike CaBER or Trimaster or FISER, the DoS protocols involve no moving parts and therefore, allow analysis of low viscosity and low elasticity fluids as the same interplay of stresses that is relevant for jetting, CaBER or dripping drives capillarity-driven pinching dynamics in DoS rheometry. The robustness and utility of this frugal technique has resulted in its increasing use for studying the extensional rheology response of polymer solutions and macromolecular biological fluids, 88,89,153,154,171–177 but a thorough examination of the influence of interfacial rheology, complexation between polymers and other ingredients, and adsorption kinetics are also warranted.…”

Pinching dynamics, extensional rheology, and stringiness of saliva substitutes

Extensional rheology of elastoviscous aqueous PEO/PEG or DMS Boger fluids and weakly elastic alternatives for investigating viscoelastic flows and instabilities

How Do Polymers Stretch in Capillary-Driven Extensional Flows?