Published by De Gruyter

Volume 7 Issue 1

Issue of International Polymer Processing

Contents
Journal Overview

May 27, 2013

Page range: 1-1

Internal and Continuous Mixers

May 27, 2013

Model Development for an Internal Mixer

K. Meissner, B. Poltersdorf

Page range: 3-14

Abstract

Using the relevance and importance modelling the mixing process in an internal mixer as a starting point, the physically based modelling of the mixing process will be discussed. There are three essential aspects of model development, i.e. the geometric model, the selection of relevant rheological properties and the establishing of relevant balance equation terms. Various models will be discussed and evaluated on the basis of literature and our own work. The calculated field quantities can be used to determine the internal mixer's action quantities (e.g. deformative mixing effect, dispersing effect, thermomechanical load etc.) and to set up suitable working diagrams.

May 27, 2013

Simulation of Flow in a Farrel Continuous Mixer

M. H. Kim, J. L. White

Page range: 15-19

Abstract

The Farrel Continuous Mixer has been an important compounding machine for a quarter century. There have, until this time, been no efforts to simulate flow in this machine. We apply a hydrodynamic lubrication theory-based analysis to this problem. We present a model of flow in a Farrel Continuous Mixer which predicts pressure and flux profiles for a fully filled machine. Calculations are reported for both Newtonian and non-Newtonian models.

Extrusion

May 27, 2013

Influence of Process Data on the Throughput of Large Extruders within the Range of 600 to 6 000 kg/h

F. Hensen, W. Imping, G. Stausberg

Page range: 20-25

Abstract

A summary of recent technological developments related to large diameter screw extruders is presented. Special attention is given to cascade screw extruders.

May 27, 2013

Conveying and Melting in Screw Extruders with Axial Screw Movement

C. Rauwendaal

Page range: 26-31

Abstract

Reciprocating extruders are used in injection molding. The number of reciprocating extruders used in the plastics processing industry is larger than conventional extruders. Therefore it is surprising that only few studies have been made of the conveying and melting process in reciprocating extruders.

May 27, 2013

Thermo-viscous Effects in Extrusion of Planar Jets with Solidification

A. N. Alexandrou, G. Torikoglu

Page range: 32-37

Abstract

The present work is a study of the thermo-viscous effects in the extrusion of a “power law” liquid with temperature dependent viscosity by including the effects of solidification. This is achieved by using a novel inverse isotherm finite element method. The method is based on an inversely defined (but not inverted) formulation where the isotherms are characteristic transverse coordinate lines. The method allows the simultaneous evaluation of all the field variables as well as the apriori unknown geometric parameters. It is shown that under certain conditions the extrudate can be significantly affected by the presence of the solidification front. Results are presented for die-swell, pressure, and location of solidification as a function of the material properties.

Film

May 27, 2013

Dynamics and Stability of Double Bubble Tubular Film Extrusion

H. J. Kang, J. L. White

Page range: 38-43

Abstract

A basic study of the kinematics and dynamics of the double bubble tubular film process as applied to polyethylene terephthalate (PET), poly p phenylene sulfide (PPS), polycarbonate (PC) and low density polyethylene (LDPE) is presented. The stability of the four resins was investigated for both a single bubble tubular film and a second bubble of a double bubble process. For the single bubble the LDPE is very stable and the PET, PPS and PC have more limited regions of stability with periodic axisymmetric instabilities near blowup ratios of unity and helical instabilities at higher blowup ratios. It is found that in the first bubble the PC vitrifies to a glass, PET and PPS crystallize to 4 to 9% levels and LDPE to nearly 50%. In the second bubble it is found possible to operate in a stable manner with a heated air ring and stable bubble for PET and PPS but not PC and LDPE. In the second bubble PET and PPS show substantial levels of increase of crystallinity. This is not the case for PC and LDPE. It appears that a strain hardening process such as crystallization is necessary for stability of the second bubble. Stress fields in the second bubble are computed using membrane theory.

May 27, 2013

Melt Strength Behavior of Polyethylene Blends**

A. Ghijsels, J. J. S. M. Ente, J. Raadsen

Page range: 44-50

Abstract

Melt strength data are presented on different types of binary polyethylene blends as linear low density polyethylene/low density polyethylene (LLDPE/LDPE), linear low density polyethylene/high density polyethylene (LLDPE/HDPE) and LDPE/LDPE. Melt strength was assessed from uniaxial tensile experiments with a Rheotens apparatus. In addition, the blends were characterised in terms of a few other rheological properties such as the zero-shear viscosity and the extrudate swell in capillary extrusion. For the LLDPE/LDPE blend pairs synergistic effects were observed for the melt strength and some other properties. No melt strength synergism was observed for the LLDPE/HDPE and the LDPE/ LDPE blends. The results are discussed in terms of the Bersted model on the effects of long chain branching on the low-shear melt viscosity of polyethylenes.

May 27, 2013

Optical Properties and Orientation Development in Uniaxially Stretched Syndiotactic Polystyrene from Amorphous Precursors

On-line Deformation Behavior

C. M. Hsiung, M. Cakmak

Page range: 51-59

Abstract

On-line uniaxial deformation behavior and deformation induced crystallization characteristics of initially amorphous syndiotactic polystyrene (s-PS) sheets were studied using an Iwamoto biaxial stretcher operated in the uniaxial mode. The stress strain curves obtained under various conditions indicate that this polymer can be stretched uniformly at 110°C which is between its glass transition temperature and cold crystallization temperature. The principal refractive indices were determined as a function of deformation conditions. Because of the negative intrinsic birefringence in the s-PS polymer chains the refractive indices in stretching direction decrease and those in the transverse direction increase with deformation.

Molding

May 27, 2013

Thermoviscoelastic Calculation of Residual Stresses and Residual Shapes of Injection Molded Parts**

K. K. Kabanemi, M. J. Crochet

Page range: 60-70

Abstract

The present paper describes a three-dimensional finite element method for calculating thermoviscoelastic stresses generated during cooling of injection molded parts. The initial temperature field corresponds to the end of the filling stage. The fully time-dependent algorithm is based on the calculation of the elastic response at every time step. The time-temperature equivalence is assumed for the non-isothermal behavior. At the end of the calculation, one obtains the residual stresses and the shape of molded parts at room temperature. The method is illustrated by means of four examples.

May 27, 2013

Analysis and Simulation of Structural Reaction Injection Molding (SRIM)

H. Aoyagi, M. Uenoyama, S. I. Güçeri

Page range: 71-83

Abstract

A numerical approach is taken to the analysis and simulation of structural reaction injection molding (SRIM). Formulation is based on anisotropic Darcy flow through a porous medium. Governing equations are developed for thin gap mold cavities with no gapwise flow. The reaction of the resin and its effect on the local viscosity are accounted for by using constitutive models. A numerical grid generation method is employed to handle irregularly shaped flow domains during the filling stage. A new finite difference mesh is generated at each time step to cover the flow domain as described by the mold boundaries and the moving resin front. The technique is shown to be capable of handling a wide range of irregularly shaped planar geometries in monitoring the instantaneous state of the cure along with the temperature and the flow fields in a detailed form. The results indicate a highly pronounced disturbance of the temperature field due to the exothermic nature of the chemical reaction. It is also shown that this temperature field and the state of cure significantly influence the flow field through fluid viscosity. The method reduces to the simulation of resin transfer molding (RTM) processes by dropping the reaction terms. The comparisons with limited experimental data for isothermal flows indicate high accuracy in both predicting the resin front locations and the fill pressures.

May 27, 2013

Crystal Orientation in Injection Moldings of Flaky Filler-Filled Polypropylenes

M. Fujiyama

Page range: 84-96

Abstract

Crystal orientation states in injection moldings of polypropylenes filled with flaky fillers such as glass flake, mica, and talc have been studied. Talc-filled polypropylene injection moldings show a peculiar crystal orientation, in which the plate planes of talc particles are aligned parallel to the mold surface, the c- and a'-axes of polypropylene crystals are bimodally oriented to the flow direction, and the b-axes are oriented in the thickness direction. Although an unfilled polypropylene injection molding basically shows a similar crystal orientation to that of the talc-filled polypropylene injection molding, the b-axis orientation to the thickness direction is much weaker. Glass flake- or mica-filled polypropylene injection moldings show similar crystal orientations to that of the unfilled polypropylene injection molding. Only talc-filled polypropylene injection moldings show the peculiar crystal orientation. Since an injection molding of polypropylene filled with only 0.5 wt.-% talc already shows the peculiar crystal orientation, it is assumed that talc influences a remote interaction on the crystallization of polypropylene.

May 27, 2013

Erratum

Page range: 96-96

May 27, 2013

Molecular Orientation in Injection-molded Polypropylene Copolymers with Ethylene

Molecular Orientation and Properties

M. Fujiyama, T. Wakino

Page range: 97-105

Abstract

Flexural test specimens were injection-molded from random and block polypropylene copolymers with various ethylene contents at cylinder temperatures of 200 to 320°C. Properties such as flexural modulus (FM), flexural strength (FS), heat distortion temperature (HDT), Izod impact strength (IIS), and mold shrinkage (MS), and degrees of molecular orientation such as thickness of skin layer (ST) and crystalline orientation functions and their distributions in the flow and thickness directions were measured. The relationships between these properties and the degrees of molecular orientation were investigated. These properties decreased with increasing cylinder temperature. FM, FS and HDT were decreased by copolymerization with ethylene, in particular, by random copolymerization. IIS was increased by copolymerization with ethylene. MS was decreased by random copolymerization and slightly increased by block copolymerization. ST and crystalline c-axis orientation function f c decreased with increasing cylinder temperature and ethylene content and on increasing distance from the gate. f c is high at the surface region and decreases toward the interior. The higher the cylinder temperature and ethylene content, the lower is f c at the surface region. There are cases at high cylinder temperatures where a shoulder or a peak of f c is observed at a middle point in the thickness direction, which is assumed to be caused by secondary flow during cooling and pressure holding process. Rectilinear relationships between the properties and ST or f c were obtained for each sample. This means that the properties cannot be unified only with degree of molecular orientation and the character of sample still remains. The character of the sample is assumed to be originated from higher-order structures beside molecular orientation, for example, crystallinity, spherulite size, and thickness of lamellae, etc.

About this journal

International Polymer Processing offers original research contributions, invited review papers and recent technological developments in processing thermoplastics, thermosets, elastomers and fibers as well as polymer reaction engineering. For more than 25 years International Polymer Processing, the journal of the Polymer Processing Society, provides strictly peer-reviewed, high-quality articles and rapid communications from the leading experts around the world.
All articles are subject to thorough, independent peer review.
Editor: Polymer Processing Society

Volume 7 Issue 1

Issue of International Polymer Processing

Contents

Model Development for an Internal Mixer

Abstract

Simulation of Flow in a Farrel Continuous Mixer

Abstract

Influence of Process Data on the Throughput of Large Extruders within the Range of 600 to 6 000 kg/h

Abstract

Conveying and Melting in Screw Extruders with Axial Screw Movement

Abstract

Thermo-viscous Effects in Extrusion of Planar Jets with Solidification

Abstract

Dynamics and Stability of Double Bubble Tubular Film Extrusion

Abstract

Melt Strength Behavior of Polyethylene Blends**

Abstract

Optical Properties and Orientation Development in Uniaxially Stretched Syndiotactic Polystyrene from Amorphous Precursors

On-line Deformation Behavior

Abstract

Thermoviscoelastic Calculation of Residual Stresses and Residual Shapes of Injection Molded Parts**

Abstract

Analysis and Simulation of Structural Reaction Injection Molding (SRIM)

Abstract

Crystal Orientation in Injection Moldings of Flaky Filler-Filled Polypropylenes

Abstract

Erratum

Molecular Orientation in Injection-molded Polypropylene Copolymers with Ethylene

Molecular Orientation and Properties

Abstract