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The SPE Library contains thousands of papers, presentations, journal briefs and recorded webinars from the best minds in the Plastics Industry. Spanning almost two decades, this collection of published research and development work in polymer science and plastics technology is a wealth of knowledge and information for anyone involved in plastics.

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Conference Proceedings

Containerized Mobile /Modular Compounding Plants: Flexible, Efficient and Cost Effective
Allan Boye Hansen, Frank Lechner, Michael Hampf, Alfred Kurz, Paul Andersen, May 2006

Interest in transportable modular production plants is on the rise. These containerized solutions combine flexibility with minimal installation and start up expense. This presentation will highlight the issues surrounding a successful implementation of this concept for an insulated pipe construction used for offshore crude oil transport.

Using Extreme Barrel Diameters to Verify the Numerical Simulation of Single-Screw Extruders
Mark A. Spalding, Greg A. Campbell, Fredrick Carlson, Kambiz Nazrisdoust, May 2006

Numerous models exist for the prediction of pressure profiles in the metering section of single-screw extruders. For the most part, these models were verified using experimental data from small diameter extruders. Verification using data from large diameter machines, however, has not been fully explored due to the lack of experimental data. The analysis here will show the effect of barrel diameter on the ability of a model to predict pressure profiles in the metering channel.

Characterization of Beam Profile for High-Power Diode Lasers with Application to Laser Welding of Polymers
L.S. Mayboudi, M. Chen, G. Zak, A.M. Birk, P.J. Bates, May 2006

This paper presents and compares the results of knife-edge and pinhole approaches for laser beam power profiling. A high-power diode laser, which is typically used for laser transmission welding (LTW) of thermoplastics, is characterized. Benefits of the knife-edge method are speed and simplicity. Its major drawback is that it does not provide details about the internal features of the three-dimensional (3-D) beam intensity distribution that is examined in depth by the pinhole method.

Unexpected and Unusual Failures of Polymeric Materials
Myer Ezrin, Gary Lavigne, May 2006

Some failures are predictable, such as due to exposure to environmental conditions. In this paper the focus is on failures that there was no reason to expect. While they may become obvious, they are unpredictable. Some are unusual, involving a cause and effect on the plastic that are not obvious. Examples are cracking of nitrile rubber, contamination of GPC samples by a filter syringe, and PVC plasticizer used for many years being declared unsafe.

Fighting the Flow - How Predicting the Way Plastic Moves Saved Us Money
Timothy B. Austin, May 2006

Over the past seven years Symbol Technologies, Inc. has been using a tool that helps to make plastic housings faster, better and cheaper: FEA analysis of the molding process. This paper details a number of examples where Symbol has used this technology to save money.

WEEE and RoHS - Environmental Design Strategies
Timothy B. Austin, May 2006

Tough new environmental laws are rapidly spreading around the world that directly impact product design. Failure to heed them will result in lost revenue and increase the cost of doing business. This paper explains what they are and details essential strategies for dealing with them.

The Effects of Electron Beam Cured Coatings on Polymer Substrates
Norbismi Nordin, Susan E. Selke, May 2006

Performance of two co-extruded and two metallized polypropylene films with EB-cured coatings were studied to determine whether any changes occurred because of the coating and curing process. Selected mechanical properties showed some statistically significant but relatively small differences between the control (uncoated and uncured) and treated (coated and cured) films.

Rheology and Properties of Linear and Branched Polypropylene Blends
Tara McCallum, Chul B. Park, May 2006

The rheological, thermal and mechanical properties of linear and branched polypropylene blends with varying melt flow rates are characterized. These blends are miscible in the melt state and have high melt elasticity while retaining good flow and mechanical properties.

Dispersed Nanoclay in GFRP as a Barrier Against Environmental Attack
Naveenkamal Ravindran, Rakesh K. Gupta, May 2006

E-glass fiber-reinforced vinyl ester plastics with up to 5 wt% montmorillonite dispersed in the matrix were immersed in distilled water for nine weeks. At one week intervals, samples were removed and sectioned, both perpendicular and parallel to the fiber direction. Scanning electron microscopy revealed progressive degradation of the matrix and the glass reinforcement. However, the rate of moisture attack decreased with increasing amount of dispersed clay; this was confirmed by strength, stiffness and ductility measurements.

Recycling of Latex Based Paint as Polymer Feedstock Materials
Jennifer K. Lynch, Thomas J. Nosker, Robert Hamill, Richard L. Lehman, May 2006

This work investigates the recycling of used latex paints into non-paint products. Waste latex paint was collected, dried, and prepared for mixing as polymer feedstock. This feedstock was melt-blended with high-density polyethylene (HDPE) and polymethylmethacrylate (PMMA) at various composition ratios by injection molding. Tensile mechanical properties and thermal properties of paint/HDPE and paint/PMMA polymer blends were determined. Thermal analysis revealed that these blends are immiscible.

Mechanical Properties and Morphology of PP and TPO / Nanosilica Nanocomposites
Yiqun Liua, Marianna Kontopoulou, May 2006

Nanosilica (SiO2) was used as a reinforcing filler in PP and PP/elastomer (TPO) blends. The partitioning of SiO2 in each polymer phase and its relation to reinforcement was investigated. SiO2 partitioned preferentially in the PP phase, when maleated PP was used as a compatibilizer. A separated morphology, where SiO2 resides in the PP phase, is required to achieve efficient reinforcement.

Challenges to the Formation of Nano-Cells in Foaming Processes
Zhenjin Zhu, Chul B. Park, May 2006

This paper implements a finite element analysis to track the morphological changes of nano-sized cells in a finite PS/CO2 system. The effects of the initial bulk gas concentration, cell size, intercellular distance, and gas diffusion coefficient on cell ripening are examined. Challenges to the formation of nano-cells in polymeric foaming processes are analyzed.

Simulation Analysis of SMD LED
Wen-Ren Jong, Tsung-Hsiang Kuo, Shu-Hui Pen, Hsiu-Hui Chiu, May 2006

Surface mount device light emitting diode (SMD LED), requiring the criteria of low weight and small size, is the most important basic components of 3C products. In this paper, MPI software is used to simulate the injection molding of SMD LED and overcome the short shot due to the runners unbalance from the preliminary design. The results show that the decreasing of filling time and the changing of runner size can effectively improve this short shot behavior.

Lubrication, Single Screw Extrusion Rates and Plasticizer Structure in Flexible PVC Compounds
Paul H. Daniels, May 2006

It is well established that changes in plasticizer structure affect (among other things) flexible PVC compounds' melting temperatures, melt viscosities and lubrication. In turn, these properties affect the extrudability of PVC compounds. The current study looks at the effects of plasticizer structure on PVC compounds' lubrication, melt viscosities, extrusion rates, stock temperatures and shear rates in a single screw extrusion process.

Polyethylene/Polyethylene Ionomer-Based Nanocomposites
Jennifer A. Lee, Marianna Kontopoulou, J. Scott Parent, May 2006

Polyethylene-based nanocomposites containing onium ion-exchanged clay (NR4+-MM) and nanosilica (SiO2) were prepared by melt compounding a polyampholyte derivative of maleated polyethylene (PE-g-PA) with high density polyethylene (HDPE). Depending on the amount of the PE-g-PA in the blend, this approach can generate composites with a high degree of NR4+-MM exfoliation and good SiO2 dispersion.

The Effect of Biaxial Orientation Processing Conditions on Immiscible Polymer Blended Sheet
Jennifer K. Lynch, Thomas J. Nosker, James D. Idol, May 2006

The effect of simultaneous biaxial orientation processing conditions upon the thermal and morphological properties of PS/HDPE and PC/PMMA immiscible polymer blended sheet samples is investigated by singly varying the draw rate and draw range. Bi-component blends were melt-blended by twin screw extrusion at composition ratios selected to result in dual phase, cocontinuous structures. Findings from this work will be applied to a future study of these blended sheet samples as gas separation membranes.

Modification of Polymers by Ionizing Radiation: A Review
Jiri George Drobny, May 2006

Ionizing radiation (gamma rays and electron beam radiation) is widely used in science, technology and medicine. The primary effect of ionizing radiation is based on its ability to excite and ionize molecules, which leads ultimately to the formation of free radicals. Free radicals then can initiate a variety of reactions. In the field of polymers this includes polymerization, cross-linking, grafting and degradation. This contribution is discussing such processes and their practical applications in some detail.

Formability of Solid-State Microcellular Polycarbonate with Varying Levels of Absorbed Carbon Dioxide
J. Erik Benson, Vipin Kumar, May 2006

Tensile tests were conducted on virgin polycarbonate (PC), PC saturated with CO2, and microcellular PC with varying concentrations of gas, with a particular focus on the strength, ductility, and the strain to failure of these materials. It was found that the ductility of gas-saturated PC exceeded that of the virgin material; while microcellular PC still containing gas exhibited the highest ductility. Thus, the presence of dissolved CO2 could provide significant assistance in the deformation processing of PC and microcellular PC.

Chemical and Engineering Issues in Polymer Nanocomposites Design
Sadhan C. Jana, Dhawal Dharaiya, Asim Pattanayak, Chang Do Jung, May 2006

The field of polymer nanocomposites has reached a certain level of maturity and we are in a position to design a number of polymer nanocomposite products to deliver certain desired properties. In this paper, two examples are presented where basic engineering principles are applied to design nanocomposite products of thermoplastic polyurethanes and blends of polyamide 6 and polypropylene.

Parametric Study on Scratch Behavior of Polymers
H. Jiang, G.T. Lim, J.N. Reddy, J.D. Whitcomb, H.-J. Sue, May 2006

The effect of material and surface properties of polypropylene (PP) on scratch behavior were discussed by parametric studies using finite element analysis (FEA). Two different loading conditions were examined. It is found that Poisson's ratio has a negligible effect on scratch performance. Increasing yield stress and reducing coefficient of adhesive friction are important ways to positively affect the scratch performance of polymer. However, increasing the Young's modulus does not necessarily improve scratch performance.







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