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Conference Proceedings

Determination of Shear Viscosity and Shear Rate from Pressure Drop and Flow Rate Relationship in a Rectangular Channel
Younggon Son, Dong Hak Kim, May 2007

In this study, we present a unique approach to calculate the shear viscosity and shear rate with the pressure drop and flow rate data from a channel having a rectangular cross-section with a height-to-width ratio (H/W) of close to one. The derived equation was verified with experimental data from rectangular dies whose height-to-width ratio (H/W) ranges from 0.1 to 1. It was confirmed that the proposed approach is reliable for calculation of the shear viscosity and shear rate from the flow data in a rectangular channel.

Improvement of Transparency and Processing Properties of Hard TPU Materials
Oliver Henze, Erik Waßner, Rüdiger Krech, May 2007

A statistical model is discussed which will help to understand the sequence length distribution of thermoplastic polyurethane block copolymers. Using this model processing range and transparency of some TPU materials were correlated to the theoretical segment length distribution.Considering this analysis some new Elastollan® 1200 materials (E 1200 materials) were developed. Due to the wide processing range and the high transparency of these new materials they are suitable to an increased number of applications.

Effects of Process Conditions and Glass Fiber Content on Part Quality of Glass Fiber-Reinforced PP Part
Wang Lixia, Zhuang Weiguo, Li Qian, Shen Changyu, May 2007

Shrinkage and warpage are two important quality indexes of the plastic of fiber-reinforced injection molded parts. The effects of different processing parameters and the percentage of glass fiber on volumetric shrinkage and warpage of the parts have been investigated based CAE analysis. An L16(45) orthogonal array design was conducted analyze the influence of factors and fiber content on shrinkage and warpage, and improve the quality of the injection molded polypropylene part.

Designing Plastic Products for Injection Molding
Jan Spoormaker, Anton Heidweiller, May 2007

Designing plastic products for injection molding requires knowledge about strength of materials, heat transfer, mold making, injection molding and costs.The product design can then be optimized for minimal mold and processing costs. Students of Industrial Design Engineering at the Delft University of Technology are educated in designing consumer products for small series till mass production. Cost awareness is important and in the lectures we present practical engineering design rules.

Effect of Thermal History on Surface Roughness and Light Transmission of Biaxially Oriented Polypropylene Films
Y.J. Lin, P. Dias, J. Van Dun, S.P. Chum, A. Hiltner, E. Baer, May 2007

The effect of preform thermal history on the transparency of biaxially-oriented polypropylene (BOPP) films was investigated. Preform sheets were prepared by compression molding with careful variation of cooling rates, and subsequently were oriented using a Brückner Karo IV stretcher. The small and large-scale surface roughnesses of oriented films were determined by atomic force microscopy (AFM) and optical microscopy, and correlated with light transmission measured by UV-Vis spectrometry.

An Experimental Investigation into Solids Feeding Characteristics of a Single Piece Barrel with Integral Feedport Design vs a Standard Two Piece Water Cooled Feedblock and Barrel Configuration.
Walter S. Smith, Robert A. Sickles, Luke A. Miller, Timothy W. Womer, May 2007

Differences in solids conveying, screw pressure profile generation, output and melt temperature varies between single piece barrel with integral feedport design and two piece water cooled feedblock and barrel designs. Two different resins will be studied using the same screw design for each barrel configuration.

Crystallinity Development during Spinning of Polypropylene Part I: On-Line Measurements Using Raman
Rajesh Paradkar, Rajen Patel, Ed Knickerbocker, Antonios Doufas, May 2007

Application of Raman spectroscopy to obtain crystallinity data, on-line, during fiber spininning of polypropylene polymers is described. These data were obtained to develop validated fundamental fiber spinning models. These validated fiber spinning models will be used to guide fiber spinning for rapid product development.

Biopharmaceutical Manufacturing – an Unseen Plastics Market
Robert L. Wells, May 2007

Plastics engineers are very aware of the use of polymeric materials in the medical field but little is known about a technically interesting and rapidly growing application that is totally dependent on polymers, biopharmaceutical manufacturing. Since 1990, producers have been replacing their traditional stainless steel tanks and pipes in both new construction and retrofit situations with sterile pre-engineered single use plastic bags equipped with the necessary inlet and outlet ports, tubing, filters, valves, and manifolds.

Resolving Stress Cracks by Injection Molding Simulation and Birefringence Analysis
Shijun Ni, May 2007

CAE injection molding simulation software combined with birefringence analysis was used for resolving stress cracks and non-uniform stress distribution on an injection molded part. The part with a two-pin gate runner system was molded and cracked after molding. The birefringence showed high stresses on the part, which was in good agreement with part cracks. Based on the recommendation of the injection molding simulation, the part cracks were resolved by optimized gate location and runner system design. The birefringence shows low stresses on the final injection molded part.

Rotational Molding of Low Viscosity Metallocene PP Resins
E. Soos Takacs, S.M.Tanu Halim, J. Vlachopoulos, R.T. Fell, H.G. Diem, May 2007

Rotational molding is virtually a shear and pressure free process. The number of materials suitable for rotational molding is limited. This paper gives a summary of a fundamental study on newly developed low viscosity metallocene catalyzed PP resin for rotational molding applications. The influence of viscosity, surface tension and thermal properties on the sintering behavior of the polymers was investigated. Rotational molding experiments were carried out and mechanical properties of the molded parts were characterized.

The Effect of Density Profile on the Flexural Modulus of Polymer Foams
Denis Rodrigue, May 2007

It is known that bulk or average density is the major parameter controlling the mechanical properties of polymer foams. Nevertheless, density profile has also a major impact especially for structural foams where an unfoamed skin is enclosing a foamed core. In this study, the effect of density profile on the flexural modulus of a structural foam is discussed in terms of skin thickness and taking into account the local variation of density (related to void fraction) with position.

Balancing of a Profile Die for Glass Run Seal of a Car Using Three-Dimensional Flow Simulation
F. Zacarias, S. Schrader, M. Gupta, May 2007

Experimental data and three-dimensional finite element simulations of the flow in two different profile dies for glass run seal of a car are presented. The flow in one of the two dies, a plate die, is found to be highly unbalanced. Using a feeder plate in the second die (a stepped die configuration) the flow at the exit of the die was properly balanced.

Development of New PC/ABS Products for Chrome Plating Applications
Naveen Agarwal, Andre Volkers, May 2007

There continues to be a strong demand for chrome-plated plastic parts in exterior and interior automotive components. In this paper, we present two new PC/ABS products suitable for use in these applications. A high-heat product is designed to meet the growing need for improved heat stability, impact and flow in addition to good plate adhesion. A medium-heat product is designed for improved flow, impact and excellent plate adhesion. Effects of key material variables on processing and plating performance are examined.

Gap Bridging in Laser Transmission Welding of PA6
M. Chen, G. Zak, P.J. Bates, B. Baylis, May 2007

Gaps in weld seams are an obstacle for applying the contour welding strategy in laser transmission welding of polymers. This paper examines the effect of laser (power) and material (carbon black level) and geometric (gap thickness) parameters on the shear strength of PA6 lap welds. Assemblies were made using a continuous wave diode laser in a contour welding mode.

Understanding Why Adhesion in Extrusion Coating Decreases with Diminishing Coating Thickness, Part III: Analysis of Peel Test
Barry A. Morris, May 2007

It is well known that in the extrusion coating process, peel strength to aluminum foil and other non-porous substrates decreases with decreasing coating thickness. The peel strength is found to be more sensitive to changes in thickness as the adhesion between the coating and substrate improves. An analysis of the peel test shows that changes in the critical dimension of the deformation region at the peel front may be responsible.

Novel Polycarbonate Blends with Improved Environmental Stress Cracking Resistance (ESCR) to Hospital Cleaners and Household Disinfectants
Srinivas Siripurapu, Asima Chakravorty, Naveen Singh, May 2007

Impact modified Polycarbonate blends are preferred for medical housings due to their excellent balance of mechanical properties, flame resistance and processability. These housings are increasingly subject to aggressive cleaners and disinfectants to meet heightened sanitation requirements. New flame retardant polycarbonate blends using tailored silicone copolymers exhibit improved environmental stress cracking resistance (ESCR) to many classes of these cleaners.

Numerical Investigation of the Effect of Screw Temperature on the Melting Profile in a Single-Screw Extruder
Atakan Alt?nkaynak, Mahesh Gupta, Mark A. Spalding, Sam L. Crabtree, May 2007

Sensitivity of the melting profile to the screw temperature in a single-screw, plasticating extruder was analyzed using a three-dimensional finite element simulation of the melting process. Numerical predictions are compared with the corresponding experimental data from screw freezing experiments. Against the conventional intuition, the predicted melting rate in the compression section of the extruder was found to decrease with increasing screw temperature.

Viscoelastic Flow Model Applied to Tubing Extrusion
Ming Li, William C. Hurley, May 2007

Two designs of tube tooling with different draw down ratios were analyzed using a multi-mode viscoelastic flow model to reduce the post-extrusion shrinkage in a cable jacketing process with polyvinylidene diflouride (PVDF). The analysis focused on reducing both elongation and hoop stresses, which were believed to correlate most closely with the shrinkage. Results showed both elongation and hoop stresses were reduced. Cable tensile tests were conducted to compare with the numerical findings.

Purification Procedures to Obtain Chitin Whiskers Employing Shrimp Shells
M. Marquez, M. Matos, M.L. Arnal, F. López-Carrasquero, C. Rosales, A.J. Müller, May 2007

Two routes for purification of shrimp shells to obtain chitin whiskers were evaluated. The best result was found when demineralization was performed with 1M HCL followed by sample deproteinization with 5% w/v KOH. In order to obtain chitin whiskers an acidic hydrolysis was performed with several acids: HCL, H2SO4 and H3PO4. Chitin whiskers with lengths between 90 and 170 nm were obtained with phosphoric acid. The process was evaluated by FTIR, TGA and TEM.

Analysis of Viscous Heating Effects in a Pressure Slit Rheometer Using Radial Functions Method (RFM)
Ivan D. Lopez, Fritz Klaiber, Tim A. Osswald, May 2007

A pressure rheometer was built to measure rheological properties of polymers at elevated pressures and temperatures. However the viscosity at high deformation rates decreases more than the predicted theoretical value represented by the Cross-WLF model. This paper studies the role of viscous heating in the resulting viscosity deviations by means of simulation using the Radial Functions Method (RFM).







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