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First normal stress difference and in-situ spectral dynamics in a high sensitivity extrusion die for capillary rheometry via the 'hole effect'

Roland Kádár (Institutionen för material- och tillverkningsteknik, Polymera material och kompositer) ; I. F. C. Naue ; M. Wilhelm
Polymer (0032-3861). Vol. 104 (2016), 8, p. 193-203.
[Artikel, refereegranskad vetenskaplig]

The development of a high sensitivity polymer melt extrusion flow instability detection die capable of estimating the normal stress differences of polymer melts during capillary rheometry tests via the 'hole effect' is presented here as proof-of-principle. Two polymer melts, a low density polyethylene (branched topology) and a high density polyethylene (linear topology), were tested in a variety of experimental configurations with the purpose of determining optimal conditions for performing normal stress difference measurements. The data was compared with rotational rheometry oscillatory shear measurements analyzed via the Laun rule. It is shown that it is possible to estimate the first normal stress difference in the capillary die, whereas the second normal stress difference cannot be determined within the experimental errors using the current configuration design. Furthermore, the influence of the induced streamline curvature via the 'hole effect' on the onset and development of melt flow instabilities is simultaneously assessed. It is shown that the hole depth has a stabilizing influence, i.e. the onset of instabilities occurs at higher shear rates, in the long chain branched polymer tested, whereas for the linear polymer tested it has a destabilizing effect on the stick-slip instability i.e. the onset of stick-slip occurs at lower shear rates.

Nyckelord: Normal stress differences, Extrusion, Instabilities



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Denna post skapades 2016-12-09. Senast ändrad 2017-01-03.
CPL Pubid: 246018

 

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Institutioner (Chalmers)

Institutionen för material- och tillverkningsteknik, Polymera material och kompositer (2005-2017)

Ämnesområden

Materialvetenskap
Polymerkemi
Textil-, gummi- och polymermaterial

Chalmers infrastruktur