SPE Library


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

Regulatory and Experimental Approaches to FDA Food Contact Compliance
Robert L. Pesselman, Melanie McCort-Tipton, May 2000

Tests to determine the migration of indirect additives into actual foods are essential in order to ensure food safety. Recent changes in regulatory protocols and evolving analytical technologies have helped define new ways to receive regulatory clearance for food contact polymers. This poster summarizes the issues to be addressed when designing a test plan and outlines regulatory considerations and experimental approaches applicable to both Food and Drug Administration (FDA) and European compliance. In addition, the proper use of food simulants, available extraction cells, and analytical techniques are discussed.

Profit from Recycling Tooling and Leadership Change
Wilhelm O. Morgan, May 2000

This paper is about upgrading tooling that has been built many years ago, or simply to make mouldings to suit our type of manufacturing operation. When these tools were built the techniques and technology used was the latest available to the polymer technologist designer, mould shop and toolmaker. Using tooling technologies as the starting point, I have added management, and more so Leader techniques to show how production can be changed and opportunities gained, by modernising; towards increasing production, saving money, material, and bringing about attitudinal changes. This paper will concentrate on the following topics, and show details where this revisiting process has changed tools and people to make them more motivated about competition, which will result in profitable, faster cycling and be better suited to today's fast operational needs.

Wood Flour Reinforced Polystyrene Composite Using SEBS-g-MA as Compatibilizer
Chen-Jui Hung, Jenn-Fong Kuan, Jaine-Ming Huang, May 2000

A functionalized thermoplastic elastomer, SEBS-g-MA (styrene-ethylene-butadiene elastomer grafting maleic anhydride), has been demonstrated to be an effective compatibilizer in polystyrene-wood flour composite and results in the formation of an in-situ formed copolymer existing between the interface of polystyrene and wood flour and thus enhance the interface adhesion and mechanical properties of the composite. With the addition of SEBS-g-MA, both flexural modulus and impact strength of polystyrene-wood flour composite has been improved substantially and a good interaction between polystyrene and wood flour can be indicated by Scanning Electron Microscopic (SEM) images as well. The result shows that composite with 4phr SEBS-g-MA gives the optimum mechanical property.

Characterization of Multi-Layer Permeation Barriers Made by Microwave Plasma Polymerization
R. Dahlmann, W. Michaeli, May 2000

Plasma polymerization is a suitable process to deposit high quality permeation barrier coatings on plastics substrates. The process allows to stack several layers forming multi-layer coatings. In these studies, the permeation properties of single- and multi-layer coatings made by plasma polymerization are investigated. As a result, the oxygen transmission through multi-layers does not only depend on the structures of the single layers. Also, the arrangement of the layers shows great effect on the permeation properties.

Recycling PVB Automotive Windshield Interlayer
Robert S. Boyd, Daniel M. Sullivan, May 2000

PVB (polyvinyl butyral) windshield interlayer retains physical properties very well, owing to being effectively packaged in glass prior to recycling. However, the cost of removing all of the contaminant has precluded PVB's acceptance in many applications where it might, otherwise, have been usefully recycled. We have found that finely pulverizing the scrap, with its attendant residues, allows melt-process manufacture of products meeting automotive requirements for vibration damping, tensile strength, tear resistance, and flexibility, over a wide range of temperatures.

Adding Value to Rotational Moldings with Color and Special Effects
Nick Henwood, May 2000

This paper reviews the different ways of adding color in rotational molding and provides technical and economic arguments for each method. The effects of pigment incorporation on base material properties are discussed and the importance of factors such as pigment type, pigment loading and method of mixing are examined in relation to material processing, physical properties and the aesthetics of the final rotomolded part. The use of special effects such as stone and antique look colors to give further value enhancement is discussed.

Dispersion of Nanoscopic Clay Particles in Thermoplastic Polymers
Grant D. Barber, Christopher M. Carter, Robert B. Moore, May 2000

The formation of clay nanocomposite, hybrid materials will be achieved through the incorporation of organically modified montmorillonite clay particles within a variety of thermoplastic polymers. In order to facilitate a homogeneous dispersion of the clay nanoparticles in the thermoplastic matrix, ionomeric compatibilizers will be utilized. The matrix polymer/ionomer pairs chosen for this study include polystyrene/sulfonated polystyrene, PET/sulfonated PET, and polypropylene/carboxylated polypropylene. Various methods of clay dispersion, including melt-processing, in-situ polymerization, and solution-state mixing will be utilized and compared. The morphology and physical properties of the resulting nanocomposites will be investigated using SAXS, TEM, DSC, TGA, DMA and standard tensile test methods.

Modeling Residual Stresses in Thermosetting Materials
Patricia Prasatya, Gregory B. McKenna, Sindee L. Simon, May 2000

The residual stresses in a composite subjected to three-dimensional constraints are calculated by extending a thermo-viscoelastic model developed previously by Simon et al. [1] to describe the time, temperature, and conversion dependence of the shear modulus for a commercial thermosetting material during cure. Experimental residual stress data as a function of cure are fit to obtain limiting values for the rubber and glassy bulk moduli. The residual stresses are then calculated as a function of cure history using the bulk moduli and the time function obtained in the thermo-viscoelastic model which include the dependence of the shift factor on temperature and conversion.

Crack Propagation in Continuous Glass Fiber/Polypropylene Composites: Matrix Microstructure Effect
M.N. Bureau, J. Denault, F. Perrin, J.I. Dickson, May 2000

The crack propagation behavior of a unidirectional continuous glass fiber/polypropylene (GF/PP) composite with two different matrix morphologies was studied. Changes in the matrix morphology obtained by varying the cooling rates during the molding process resulted in changes in: 1) the flexural strength and strain at failure using three-point bending specimens; 2) the critical strain energy release rate in mode I quasi-static crack growth using double-cantilever beam (DBC) specimens; 3) the fatigue crack growth rates at given levels of strain energy release rate in mode II fatigue crack propagation using end-notch flexure (ENF) specimens. The reduced presence of the ductile amorphous PP phase in the PP/GF composite at lower cooling rates is responsible for the reduction in mechanical performance.

Spectroscopic Studies of Ion Implanted Polycarbonate
James M. Sloan, May 2000

Ion implantation is a process by which ions are accelerated and focused at a rapid speed to a target at energies high enough to bury them just below the target's surface. These ions penetrate the sample surface and form a thin layer below the surface. Until recently this technique was mainly utilized for modification of semiconductors (1) or to improve wear characteristics in metal tooling and polymers (2,3). Now the use of ion implantation has been extended to polymers. Improvements in adhesion (4), electrical (5) and abrasion (6) have been reported. The resulting chemical effect of ion implantation in polymer systems is to increase chain scission and cross-linking., while decreasing crystallinity(7). In this study, the effects of medium energy ion implantation of boron, nitrogen and fluorine into a polycarbonate matrix was examined by Fourier transform infrared spectroscopy and UV/VIS spectroscopy. The implanted polycarbonate linkage degrades upon implantation. Further implantation leads to carbonization just below the surface of the specimens.

Optimization of Composition of Soy-Based Polyols for Rigid Polyurethane Foams
Ivan Javni, Zoran Petrovic, Wei Zhang, Andrew Guo, May 2000

Soybean oil-based polyols can be synthesized with different OH content. Higher OH number polyols display higher viscosity, which may limit their applications in foams. Adding glycerin to a polyol affects crosslinking density and homogeneity of the networks. It would be advantageous to use a lower OH content and a lower viscosity polyol and adjust the OH number with glycerin if the properties would stay the same. Apart from having lower viscosity, polyols with lower a OH number are easier to prepare. It has been shown that rigid foams based on the polyol having an OH number of 180 mg KOH/g have similar properties as those based on the polyol with an OH number of 208 mg KOH/g if the final OH number of the polyol system (polyol, crosslinker and water) is adjusted to the same value, although heat stability (onset of softening) of the former was lower.

Some Reasons Not to Use Multi-Cavity (>4) Tools
John W. Bozzelli, May 2000

Injection molding continues to be the preferred plastic process for making large quantities of plastic parts. The goal is to make identical parts. When parts are not identical problems develop, not just in performance but also in assembly. The trend toward more complex parts, coupled with demanding tolerances continues to challenge processors in pursuit of the goal of identical parts. Reasons against the trend for high cavitation molds are proposed.

Polymer Melt Flow Behavior in the Coinjection Molding Process
K.T. Nguyen, E. Turcott, A. Derdouri, D. Ait Messaoudz, B. Sanschagrin, B.A. Salanton, K.A. Koppi, May 2000

An experimental study of the co-injection molding process was carried out. The fingering instability due to the difference in viscosities of the two materials gave rise to early breakthrough of the core material and non- uniform skin layer thickness. The core material was also used as tracer material for flow visualization of the injection molding process. The V formation near the wall as well as the mushroom effect, previously predicted, was observed.

Relative Dimensional Change of Various Nylon Products Due to Moisture Absorption
Steve Gerbig, Bonnie Richter, Brian Helfrich, May 2000

In plastic materials published data, moisture absorption is almost always expressed in terms of percent weight gain. While this information is important for comparison purposes, it doesn't truly relate to the design engineers' application and use of these materials. This study will quantify and compare the relative dimensional changes which occur in parts as they are exposed to a humid environment and move from the dry-as-molded state toward saturation using nylon types 6, 66 and 46.

Processing and Properties of Polymer Nano-Composites
Hua Wang, Mark Elkovitch, L. James Lee, Kurt W. Koelling, May 2000

Polymer nano-composites are prepared by melt intercalation in this study. Nano-clay is mixed with either a polymer or polymer blends by twin screw extrusion. The clay-spacing in the composites is measured by X-ray Diffraction (XRD). The morphology of the composites and its development during the extrusion process are observed by SEM. Rheological behavior of the composites are measured. It is found that the clay spacing and composite morphology are influenced by the concentration of the nano-clay and the type of polymer used. The addition of the nano-clay can greatly increase the viscosity of the polymer when there is strong interaction. If such polymer/nano-clay mixture is used as the matrix phase, it would lead to improved dispersion and distribution of the minor phase in the polymer blends. The effect of nano-clay on polymers and polymer blends is also compared with Kaolin clay under the same experimental conditions.

Effects of Impact Modifiers on the Properties of Rigid PVC/Wood-Fiber Composites
Fatih Mengeloglu, Laurent M. Matuana, Julie A. King, May 2000

This study examined the effects of impact modifier types and addition levels on the mechanical properties of rigid PVC/wood-fiber composites. The formulations of the composites were modified by incorporating crosslinked (all acrylic and methacrylate butadiene styrene) and uncrosslinked (chlorinated polyethylene) impact modifiers at various concentrations. Mixtures of PVC, wood-fibers, impact modifiers, and other processing additives were dry-blended using a high-intensity mixer. The dry-blended compounds were extruded, compression molded, and tested for tensile and Izod impact strength properties. Analysis of variance (ANOVA) was used to discern the effects of impact modification on the mechanical properties of the composites. The experimental results indicated that the impact resistance of rigid PVC/wood-fiber composites depends strongly on the type and content of impact modifier. With the proper choice of modifier type and concentration, the impact strength of rigid PVC/wood fiber composites can be significantly improved without degrading the tensile properties. Methacrylate butadiene styrene and all acrylic modifiers performed in a similar manner and were more effective in improving the impact resistance of rigid PVC/wood-fiber composites than the chlorinated polyethylene modifier.

The Effect of Tie-Layers on Optical Properties of Coextruded Multilayer Films
Dean A. Zimmerman, May 2000

The tie-layer is a critical component of multilayer films and can effect the optical properties of the overall film structure. This paper evaluates various tie-layers for their effect on optical properties of the film. The see-through and contact clarity of the film is explained based on a combination of the physical properties of the tie-layer resin and the effect of the interfacial region on flow instability. Rheology of the interfacial region is discussed based on controlled experiments simulating the reaction that occurs during multilayer extrusion and shows that the shear stress and complex viscosity can be used to estimate the see-through clarity in multilayer coextruded films.

Optimizing the High Speed Machining Process for Hardened Steel Molds
Staffan Gunnarsson, Berne Nilsson, May 2000

Constantly reduced product life cycles and increasing product variety compels the moldmaker to cut down on long production times especially in mold and die making. Electrical Discharge Machining (EDM) has been the conventional finishing technique for generating complex free form surfaces. However, the EDM process also generates a brittle, recast layer, which is often detrimental to mold performance. High speed machining technology of today offers an economical alternative to EDM, which does not significantly deteriorate mold surface properties. This paper will evaluate the benefits of a high-speed machined mold compared with conventional manufacturing techniques. It will also investigate the effects of different cutting parameters, in an attempt to optimize the high speed machining process.

Flow Behavior of Sparsely Branched Metallocene-Catalyzed Polyethylenes
Phillip J. Doerpinghaus, Sujan E. Bin Wadud, Donald G. Baird, May 2000

The dramatic effect of chain architecture on the melt flow behavior of polyethylenes is well established. The advent of metallocene and other constrained-geometry catalysts now allows the precise control of molecular weight, branch content, and branch distribution. In the present study, the rheological responses of three different metallocene-catalyzed polyethylenes are analyzed. Despite similarities in their shear properties, the differences in transient extensional viscosities can be attributed to the presence of sparse long-chain branches and/or high molecular weight fractions. Melt fracture observations as well as full-field flow birefringence measurements are collected to further corroborate this idea.

A New Impact Modifier for Toughening Clear APET
Edward J. Troy, Anthony C. Fazey, Evan Crook, May 2000

Polymers, as well as glasses, exhibit physical 'aging' which leads to embrittlement. Impact modifier additives counteract this embrittlement. In clear polymer systems, such as amorphous polyethylene terephthalate [APET], blends with typical commercial impact modifiers show a significant loss of optical clarity. The work presented here, based on a new impact modifier additive, shows that embrittlement of APET can be counteracted without significant loss of optical clarity.







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