Nonlinear dynamics of melted polymer layers

A.N. Semenov; A.V. Subbotin; G Hadziioannou; G. ten Brinke; E Manias; M. Doi

doi:10.1002/masy.19971210116

Nonlinear dynamics of melted polymer layers

A.N. Semenov
, A.V. Subbotin
, G Hadziioannou
, G. ten Brinke
, E Manias
, M. Doi

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

A theory for non-linear rheology of molten polymer layers between solid surfaces in the Rouse regime is discussed. It is shown that the effect of finite extensibility of polymer chains leads to I;he characteristic 1/3 power law for the shear stress vs. shear velocity in the regime of high velocities. It is also shown that bridging polymer fragments connecting the two surfaces play an important role for the rheology if the effective monomer friction in the immediate vicinity of the surfaces is much higher than far from the surfaces. In particular we predict that shear stress is decreasing with shear velocity u in a limited range between u(1) and u(min). This effect results in a possibility of stick-slip periodical dynamics of the layer under a constant imposed velocity.

Original language	English
Pages (from-to)	175-186
Number of pages	12
Journal	Macromolecular Symposia
Volume	121
Issue number	1
DOIs	https://doi.org/10.1002/masy.19971210116
Publication status	Published - Aug-1997
Event	6th European-Polymer-Federation Symposium on Polymeric Materials (EPF-96) - , Greece Duration: 7-Oct-1996 → 11-Oct-1996

Keywords

STICK-SLIP MOTION
SHEAR-FLOW
ADSORPTION LIMIT
RHEOLOGY
FRICTION
FILMS

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title = "Nonlinear dynamics of melted polymer layers",

abstract = "A theory for non-linear rheology of molten polymer layers between solid surfaces in the Rouse regime is discussed. It is shown that the effect of finite extensibility of polymer chains leads to I;he characteristic 1/3 power law for the shear stress vs. shear velocity in the regime of high velocities. It is also shown that bridging polymer fragments connecting the two surfaces play an important role for the rheology if the effective monomer friction in the immediate vicinity of the surfaces is much higher than far from the surfaces. In particular we predict that shear stress is decreasing with shear velocity u in a limited range between u(1) and u(min). This effect results in a possibility of stick-slip periodical dynamics of the layer under a constant imposed velocity.",

keywords = "STICK-SLIP MOTION, SHEAR-FLOW, ADSORPTION LIMIT, RHEOLOGY, FRICTION, FILMS",

author = "A.N. Semenov and A.V. Subbotin and G Hadziioannou and \{ten Brinke\}, G. and E Manias and M. Doi",

note = "Journal AUG XW917 MACROMOL SYMPOSIA; 6th European-Polymer-Federation Symposium on Polymeric Materials (EPF-96) ; Conference date: 07-10-1996 Through 11-10-1996",

year = "1997",

month = aug,

doi = "10.1002/masy.19971210116",

language = "English",

volume = "121",

pages = "175--186",

journal = "Macromolecular Symposia",

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T1 - Nonlinear dynamics of melted polymer layers

AU - Semenov, A.N.

AU - Subbotin, A.V.

AU - Hadziioannou, G

AU - ten Brinke, G.

AU - Manias, E

AU - Doi, M.

N1 - Journal AUG XW917 MACROMOL SYMPOSIA

PY - 1997/8

Y1 - 1997/8

N2 - A theory for non-linear rheology of molten polymer layers between solid surfaces in the Rouse regime is discussed. It is shown that the effect of finite extensibility of polymer chains leads to I;he characteristic 1/3 power law for the shear stress vs. shear velocity in the regime of high velocities. It is also shown that bridging polymer fragments connecting the two surfaces play an important role for the rheology if the effective monomer friction in the immediate vicinity of the surfaces is much higher than far from the surfaces. In particular we predict that shear stress is decreasing with shear velocity u in a limited range between u(1) and u(min). This effect results in a possibility of stick-slip periodical dynamics of the layer under a constant imposed velocity.

AB - A theory for non-linear rheology of molten polymer layers between solid surfaces in the Rouse regime is discussed. It is shown that the effect of finite extensibility of polymer chains leads to I;he characteristic 1/3 power law for the shear stress vs. shear velocity in the regime of high velocities. It is also shown that bridging polymer fragments connecting the two surfaces play an important role for the rheology if the effective monomer friction in the immediate vicinity of the surfaces is much higher than far from the surfaces. In particular we predict that shear stress is decreasing with shear velocity u in a limited range between u(1) and u(min). This effect results in a possibility of stick-slip periodical dynamics of the layer under a constant imposed velocity.

KW - STICK-SLIP MOTION

KW - SHEAR-FLOW

KW - ADSORPTION LIMIT

KW - RHEOLOGY

KW - FRICTION

KW - FILMS

U2 - 10.1002/masy.19971210116

DO - 10.1002/masy.19971210116

M3 - Article

SN - 1521-3900

VL - 121

SP - 175

EP - 186

JO - Macromolecular Symposia

JF - Macromolecular Symposia

IS - 1

T2 - 6th European-Polymer-Federation Symposium on Polymeric Materials (EPF-96)

Y2 - 7 October 1996 through 11 October 1996

ER -

Nonlinear dynamics of melted polymer layers

Abstract

Keywords

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