J. J. Elmendorp scite author profile

In this paper it is shown that the formation and subsequent breakup of threadlike particles are important disperging mechanisms and largely govern the morphology resulting from a polymer blending process. Experiments on the breakup of Newtonian threads surrounded by a second Newtonian fluid have been carried out and good agreement with Tomotika's theory is achieved. Experiments on the breakup of viscoelastic fluid threads showed the influence of shear thinning and stretch thickening effects of the fluids used. To investigate the influence of non‐Newtonian behavior of molten polymers on capillary instabilities, experiments were carried out on the breakup of molten polymer threads embedded in a second polymer melt. Surprisingly an absence of shear thinning and stretch thickening effects was noticed and good agreement with Tomotika's theory was obtained. Finally, the stability of threads of fluids exhibiting a yield stress was studied. A criterion predicting the stability of such threads was established and verified experimentally. On the basis of this criterion a possible explanation is given for the stability of a certain class of co‐continuous morphologies.

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A study on polymer blending microrheology: Part IV. The influence of coalescence on blend morphology origination

Elmendorp¹,

Vegt²

1986

Polymer Engineering & Sci

210

127

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The influence of shear induced coalescence on the origination of morphologies in polymer blending processes is investigated both theoretically and experimentally. In the theoretical part a route is proposed to estimate the fraction of collisions between disperse phase domains in simple shear flow that result in an actual coalescence. It was shown that under polymer blending conditions this "coalescence probability" is only substantial if the polymer/ polymer interfaces exhibit a high degree of mobility. In the experimental part, the phenomenon of gravity induced droplet/planar interface coalescence is utilized to show the high degree of mobility of molten polymer interfaces. Scout experiments on the relation between domain size and disperse phase concentration in polymer blends prepared on a single screw extruder were carried out. For extremely low concentration (

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A study on polymer blending microrheology: Part 1

Elmendorp¹,

Maalcke²

1985

Polymer Engineering & Sci

127

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In order to achieve a better understanding of polymer blending processes some experimental work has been carried out on the deformation and break‐up behavior of liquid droplets in simple shearing matrices. For Newtonian systems good agreement was obtained with existing theories. For non‐Newtonian systems trends were established regarding the influence of fluid elasticity on droplet deformation and break‐up.

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Measurement of interfacial tensions of molten polymer systems by means of the spinning drop method

Elmendorp

Vos

1986

Polymer Engineering & Sci

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Some wetting and adhesion phenomena in polypropylene composites

Elmendorp¹,

Schoolenberg²

1995

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J. J. Elmendorp

A study on polymer blending microrheology

A study on polymer blending microrheology: Part IV. The influence of coalescence on blend morphology origination

A study on polymer blending microrheology: Part 1

Measurement of interfacial tensions of molten polymer systems by means of the spinning drop method

Some wetting and adhesion phenomena in polypropylene composites

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