Add to ORKGStructure-property relationship has been explored for decades in the context of flow behavior of entangled polymeric liquids. For a long time, it has been assumed that the structure of an entangled polymer, i.e., the entanglement network would experience smooth changes during flow. Using an effective particle-tracking velocimetric (PTV) method recently developed in our lab [1], we found that the nonlinear flow dynamics are associated with an elastic breakdown of the fluid structure. This cohesive failure does not necessarily occur homogeneously in a macroscopic-scale experiment, making it ambiguous to interpret traditional rheological measurements. The presentation complies a whole set of PTV observations to elucidate the physical origin of...
A variety of rheological measurements including oscillatory shear and steady shear in both controlle...
We have carried out controlled-stress experiments in addition to the conventional controlled-rate me...
The startup and steady shear flow properties of an entangled, monodisperse polyethylene liquid (C100...
This Feature Article describes a plausible picture of entangled polymer shear flow behavior, resulti...
Nonlinear dynamic and mechanic responses of entangled polymeric liquids to external deformations det...
We will present an overview of the latest developments in the area of nonlinear flow behavior of ent...
Using a particle tracking velocimetric technique, we show direct evidence of nonlinear velocity prof...
Large step shear experiments revealed through particle tracking velocimetry that entangled polymeric...
Entangled aqueous DNA solutions are ideal as a model system to examine nonlinear flow features inclu...
Large amplitude oscillatory shear (LAOS) has been employed widely to probe the nonlinear behavior of...
A contradiction has recently appeared between the current understanding of entangled polymers in non...
Recent particle-tracking velocimetric observations coupled with conventional rheological measurement...
We briefly review the recent advances in the rheology of entangled polymers and identify emerging re...
We apply a recently developed particle-tracking velocimetric (PTV) method along with conventional rh...
The recent particle-tracking velocimetric (PTV) observations revealed that well-entangled polymer so...
A variety of rheological measurements including oscillatory shear and steady shear in both controlle...
We have carried out controlled-stress experiments in addition to the conventional controlled-rate me...
The startup and steady shear flow properties of an entangled, monodisperse polyethylene liquid (C100...
This Feature Article describes a plausible picture of entangled polymer shear flow behavior, resulti...
Nonlinear dynamic and mechanic responses of entangled polymeric liquids to external deformations det...
We will present an overview of the latest developments in the area of nonlinear flow behavior of ent...
Using a particle tracking velocimetric technique, we show direct evidence of nonlinear velocity prof...
Large step shear experiments revealed through particle tracking velocimetry that entangled polymeric...
Entangled aqueous DNA solutions are ideal as a model system to examine nonlinear flow features inclu...
Large amplitude oscillatory shear (LAOS) has been employed widely to probe the nonlinear behavior of...
A contradiction has recently appeared between the current understanding of entangled polymers in non...
Recent particle-tracking velocimetric observations coupled with conventional rheological measurement...
We briefly review the recent advances in the rheology of entangled polymers and identify emerging re...
We apply a recently developed particle-tracking velocimetric (PTV) method along with conventional rh...
The recent particle-tracking velocimetric (PTV) observations revealed that well-entangled polymer so...
A variety of rheological measurements including oscillatory shear and steady shear in both controlle...
We have carried out controlled-stress experiments in addition to the conventional controlled-rate me...
The startup and steady shear flow properties of an entangled, monodisperse polyethylene liquid (C100...