Loading...
On-line shear and extensional rheometry of polymer melts in the extrusion process.
Kelly, Adrian L.
Kelly, Adrian L.
Publication Date
2009-06-11T15:28:11Z
End of Embargo
Supervisor
Rights
The University of Bradford theses are licenced under a Creative Commons Licence.
Peer-Reviewed
Open Access status
Accepted for publication
Institution
University of Bradford
Department
Interdisciplinary Research Centre for Polymer Science and Technology, Department of Mechanical and Manufacturing Engineering.
Awarded
1997
Embargo end date
Collections
Additional title
Abstract
A novel on-line capillary rheometer (OLR) was used to examine the shear and
extensional characteristics of polyolefin melts during twin screw extrusion (TSE).
Comparisons with off-line rheometry were made using a twin-bore capillary rheometer
and a modular in-line slit die rheometer (ILR) provided in-line rheometry comparisons.
Both capillary rheometers were controlled via PCs running dedicated software, and the
extrusion line and ELR were fully instrumented allowing real-time process monitoring
to be carried out by IBM compatible PCs via data acquisition hardware and software.
The prototype OLR was developed by the re-design of several key features including
an instrumented transfer section and capillary die block which facilitated the use of
various die geometries.
Shear and extensional on-line rheometry of three polyethylenes (linear and branched),
and four molecular weight grades of polypropylene were examined, and a direct
comparison with off-line capillary rheometry showed a good correlation. The effect of
a high loading of filler on two of the polyethylenes was investigated. In-line shear
stress and entry pressure measurements showed a reasonable correlation with on-line
rheometry.
A study of entry flows in the OLR using capillary dies approaching orifice showed
non-linearities occurred at very low capillary length to diameter(L:D) ratios, and this
was repeatable using off-line rheometry. Predicted zero length entry pressures (Po)
were used to estimate apparent extensional viscosity using a number of standard
models. Melt instability and capillary wall slip were also investigated using on-line
rheometry.
Melt pressure and temperature in the twin screw extruder and OLR were monitored at
various process conditions to examine the ability of the OLR to condition melt during
testing, and the effect of OLR testing on extrusion conditions. Pressure variation in
the extruder, OLR and off-line rheometer were compared in order to quantify process
noise. The effect of OLR testing on melt rheology and polymer molecular weight were
examined using off-line rheometry and gel permeation chromatography(GPC).
Version
Citation
Link to publisher’s version
Link to published version
Link to Version of Record
Type
Thesis
Qualification name
PhD