Neutron-mapping polymer flow: scattering, flow visualization and molecular theory.

Bent, J.; Hutchings, L.R.; Richards, R.W.; Gough, Tim; Spares, Robert; Coates, Philip D.; Grillo, I.; Harlen, O.G.; Read, D.J.; Graham, R.S.

Publication

Neutron-mapping polymer flow: scattering, flow visualization and molecular theory.

Bent, J.
;
Hutchings, L.R.
;
Richards, R.W.
;
Gough, Tim
;
Spares, Robert
;
Coates, Philip D.
;
Grillo, I.
;
Harlen, O.G.
;
Read, D.J.
;
Graham, R.S.

Publication Date

2003

Keywords

Fluid behavior, Polymer flow, Entangled polymer melt

Peer-Reviewed

Yes

Collections

Engineering and Digital Technology Publications

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Abstract

Flows of complex fluids need to be understood at both macroscopic and molecular scales, because it is the macroscopic response that controls the fluid behavior, but the molecular scale that ultimately gives rise to rheological and solid-state properties. Here the flow field of an entangled polymer melt through an extended contraction, typical of many polymer processes, is imaged optically and by small-angle neutron scattering. The dual-probe technique samples both the macroscopic stress field in the flow and the microscopic configuration of the polymer molecules at selected points. The results are compared with a recent "tube model" molecular theory of entangled melt flow that is able to calculate both the stress and the single-chain structure factor from first principles. The combined action of the three fundamental entangled processes of reptation, contour length fluctuation, and convective constraint release is essential to account quantitatively for the rich rheological behavior. The multiscale approach unearths a new feature: Orientation at the length scale of the entire chain decays considerably more slowly than at the smaller entanglement length.

URI

http://hdl.handle.net/10454/3862

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No full-text available in the repository

Citation

Bent, J., Hutchings, L.R., Gough, T.D., Spares, R. and Coates, P.D. et al (2003). Neutron-mapping polymer flow: scattering, flow visualization and molecular theory. Science. Vol. 301, No. 5640, pp. 1691-1695.

Link to Version of Record

https://doi.org/10.1126/science.1086952

Type

Article

Neutron-mapping polymer flow: scattering, flow visualization and molecular theory.

Bent, J.
;
Hutchings, L.R.
;
Richards, R.W.
;
Gough, Tim
;
Spares, Robert
;
Coates, Philip D.
;
Grillo, I.
;
Harlen, O.G.
;
Read, D.J.
;
Graham, R.S.

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End of Embargo

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Peer-Reviewed

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Accepted for publication

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Neutron-mapping polymer flow: scattering, flow visualization and molecular theory.

Bent, J. ; Hutchings, L.R. ; Richards, R.W. ; Gough, Tim; Spares, Robert ; Coates, Philip D. ; Grillo, I. ; Harlen, O.G. ; Read, D.J. ; Graham, R.S.

Publication Date

End of Embargo

Supervisor

Keywords

Rights

Peer-Reviewed

Open Access status

Accepted for publication

Institution

Department

Awarded

Embargo end date

Collections

Additional title

Abstract

URI

Version

Citation

Link to publisher’s version

Link to published version

Link to Version of Record

Type

Qualification name

Notes

Bent, J.
;
Hutchings, L.R.
;
Richards, R.W.
;
Gough, Tim
;
Spares, Robert
;
Coates, Philip D.
;
Grillo, I.
;
Harlen, O.G.
;
Read, D.J.
;
Graham, R.S.