Coil-stretch transition of dilute flexible polymers under ultrahigh velocity gradients
- 15 June 1974
- journal article
- conference paper
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 60 (12) , 5030-5042
- https://doi.org/10.1063/1.1681018
Abstract
Because the hydrodynamic interactions are reduced by stretching, a solute polymer coil should unwind abruptly when a certain critical value of the velocity gradient is reached. Depending on the details of the velocity field (``longitudinal'', or ``transverse'', or more complex gradients) this coil ↔ stretch transition may be continuous (``second order'') or discontinuous (``first order''). In the latter case hysteresis should often be observed; a qualitative discussion of the associated relaxation times is given. Simple shear flow is an exceptional case, with no sharp transition. Some expected effects of the C↔S transition on the mechanical behavior, on optical properties, and on chemical degradation in flow are briefly analyzed.Keywords
This publication has 9 references indexed in Scilit:
- Effects of Shear Treatment on Drag-reducing Polymer Solutions and Fibre SuspensionsNature, 1970
- Drag Reduction by AdditivesAnnual Review of Fluid Mechanics, 1969
- Flow birefringence of elastico-viscous polymer systemsPublished by Springer Nature ,1969
- Quasi-elastic scattering of neutrons by dilute polymer solutions: I. Free-draining limitPhysics Physique Fizika, 1967
- Hydrodynamics of linear macromoleculesPure and Applied Chemistry, 1966
- Gradient Dependence of Intrinsic Viscosity of Freely Flexible Linear MacromoleculesThe Journal of Chemical Physics, 1960
- Dynamics of Polymer Molecules in Dilute Solution: Viscoelasticity, Flow Birefringence and Dielectric LossThe Journal of Chemical Physics, 1956
- A Theory of the Linear Viscoelastic Properties of Dilute Solutions of Coiling PolymersThe Journal of Chemical Physics, 1953
- Intrinsic Viscosity, Diffusion, and Sedimentation Rate of Polymers in SolutionThe Journal of Chemical Physics, 1948