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
Extruder Analysis Utilizing a Transparent Extruder and Simulation Software
Weining Song, John Perdikoulias, Mirek Planeta, May 2000
Experiments using a glass window extruder are presented. These provide direct observation of the different melting behavior among various polymers. Simulations performed using commercially available software showed good correlation with the observations. The data obtained provides valuable insight into the melting behavior which, can be used to evaluate and ultimately improve the capabilities of simulation software as well as screw designs.
How to Add Value and Solve Mold Problems - With Steel
Frederick T. Gerson, May 2000
Mold designers and mold builders know many different ways to solve mold problems.. Yet a surprising number of our colleagues have not yet used the wide variety of proven mold steel on offer in to-day's market place. This paper reviews the range of available grades of steel; it cites examples of mold problems that have been solved by selecting better and more appropriate alloys; it lists the worldwide availability of innovative mold steels, and finally, it shows that better steel adds value to a mold at very modest cost.
Melt Processed Polymer-Clay Nanocomposites: Properties and Applications
Sam J. Dahman, May 2000
The melt compounding route is a powerful approach in the preparation of polymer-clay nanocomposites as existing technologies can be utilized and easily scaled to commercial quantities. Polymer-clay nanocomposites have been developed via melt compounding. Dramatic increases are exhibited in heat distortion, stiffness, and barrier properties compared to the neat resin. Other benefits include low specific gravity, processing ease, surface appearance, etc.
3D Numerical Simulation of Gas-Assisted Injection Molding Process
Florin Ilinca, Jean-François Hétu, May 2000
This paper presents a finite element algorithm for solving gas-assisted injection molding problems. The solution of the three-dimensional (3D) equations modeling the momentum, mass and energy conservation is coupled with two front-tracking equations, which are solved for the polymer/air and gas/polymer interfaces. The performances of the proposed procedure are quantified by solving the gas-assisted injection problem on a thin plate with a rib. Solutions are shown for different ratios polymer/gas injected. The effect of the melt temperature, gas pressure and gas injection delay, on the solution behavior is also investigated. The approach is then applied to a thick 3D part.
3D Simulation of the Packing-Cooling Stage in Polymer Injection Molding
Florin Ilinca, Jean-François Hétu, May 2000
This paper presents a finite element algorithm for solving polymer injection molding problems. The methodology consists in solving for the three-dimensional (3D) equations modeling the momentum, mass and energy conservation. The packing and cooling stages of the injection molding process are modeled by including the compressibility effects. The procedure is aimed by problems in which three-dimensional effects are important but is also effective for thin parts. The performances of the proposed approach are quantified for the injection of a thin plate for which experimental data are available. The procedure is then applied to a thick 3D part. The method results in accurate solutions and it proves to be a useful tool to quantify the solution behavior on cases otherwise difficult to investigate.
Compaction of Fillers, Flame Retardants and Other Additives to Improve Flowability and Accelerate Compounding Rate
George C. Hawley, May 2000
A process has been developed to compact fillers commonly used in plastics to improve mechanical properties - mica, nanoclays and wollastonite -and flame retardance - magnesium and aluminum hydroxides. Such fillers are produced in very fine particle size or high aspect ratio. They are fluffy, entraining much air, which must be removed. Aerated fillers do not flow well and require special feed devices. Voluminous filler takes up machine capacity, limiting the production rate of filled compounds. Entrained air reduces thermal conductivity and thus the flux rate of the polymer. Compaction improves the handling, feeding and incorporation rate of such fillers into compounds.
New Boron Nitride Processing Aids for the Extrusion of Molten Polymer
Franky Yip, Savvas G. Hatzikiriakos, Thomas M. Clere, May 2000
It is already known that the use of Boron Nitride (BN) in the extrusion of molten polymers may eliminate surface melt fracture and postpone the critical shear rate for the onset of gross melt fracture to significantly higher values depending on resin type and additive content. In this work several new Boron Nitride powders (Carborandum Co.) are tested that exhibit superior behavior from the previous studied ones. Critical parameters for this unique behavior (elimination of gross melt fracture) are good dispersion, small average particle size and free of agglomeration. The equipment used for the testing of the new powders include both an Instron capillary rheometer with special annular dies (Nokia Maillefer wire coating crosshead) attached to the rheometer, and a parallel-plate rheometer. A metallocene polyethylene with all types of boron nitride is tested at various additive concentrations. The additive having the finest particle size and that is free of agglomeration was found to have the greatest influence on the gross melt fracture performance of the polymer tested in crosshead dies and tips. Moreover, one of the additives was found to enhance melt slippage and as a result relieved internal shear stresses. This action is believed to eliminate surface melt fracture and postpone the critical shear rate for the onset of gross melt fracture to significantly higher values depending on the additive concentration. The influence of the boron nitride type and its concentration on the polymer rheology is also discussed.
Pressure Dependent Viscosity of Polymer Melts
Osamu Amano, Keita Ainoya, May 2000
Pressure dependent viscosity and juncture loss were measured by means of a new capillary rheometer developed at pressure up to 100 MPa and over wide shear-rate range from 5.0E+02/s to 5.0E+05/s for four polymer melts (HDPE, GPPS, HIPS, and PC) through simultaneous measurement of pressure at the entrance and exit of the capillary during applying counter pressure to the exit by means of a needle valve located in the downstream. Pressure dependent viscosity and juncture loss play an important role to improve the accuracy of simulation with a CAE program. However, there are few data in high shear-rate range corresponding to actual molding. Pressure loss in the flow path increases unexpectedly with increase of hydraulic pressure applied. The most adequate equation for fitting viscosity seems to be the Cross-WLF equation. The magnitude of the pressure parameter D3 lies in the range of 10E-07 K/Pa for these polymers.
A Study of Surface Haze Formation in Polypropylene/Acrylic Alloys
S.P. Bistany, D. Dong, C.Y. Han, L.A. Struzik, M.D. Wolkowicz, May 2000
Haze is a cosmetic defect that occasionally appears on injection molded part surfaces. This defect is especially noticeable in dark colored, high gloss parts. A study was performed to identify and understand the underlying causes of surface haze formation in unfilled PP/PMMA alloys. Four different Polypropylene resins with varying amounts of PMMA were evaluated. The formation of haze was found to correlate with the amount of PMMA included in the formulation and the melt elasticity as indicated by tan ? at low frequency.
Light Stabilization for Black and White Glass-Filled Nylon-6
Hui H. Chin, James H. Botkin, May 2000
Light stabilization of polyamides for automotive applications remains a challenge. In this paper various stabilization systems (hindered amine light stabilizer, antioxidant, phosphite) were evaluated in black and white glass-filled nylon-6. The properties being examined were color change and gloss retention of injection molded plaques during exposure in a xenon arc weatherometer under exterior automotive conditions per SAE J1960 and interior automotive conditions per SAE J1885. Light stabilization systems meeting the interior automotive requirements were identified.
Analysis of the Flow Front Profile by In-Line Visualization of the Filling Stage
G.R. Dias, A.M. Cunha, M. Cinvent, May 2000
Using a special tool designed with the purpose to visualize the melt flow across the thickness dimension of the mold cavity [l], an experimental investigation was made to assess the polymer melt behavior in specific processing conditions. The aim of the work is to visualize some unexpected flow front behaviors in the selected injection molding conditions. The design of the mold enables to adjust the location of a special glass window along the material flow path. The mold feed is based on a hot runner system. The results presented are direct visualization images of the melt front.
How to Organise a Modern Plastic Company to Have Success in a Turbulent Environment?
G. Baric, I. Catic, May 2000
Today's conditions in business activities, only short-term planning possibilities, necessity for everyday adaptation to situations within the company, require new organisational forms, new ways of managing the companies and, in a way, new people. Since today's companies are the target of constant selection, comparable to the one in nature, and their environment is unpredictable, it is no wonder that knowledge acquired by natural sciences is being increasingly implemented in the field of organisation. Modern business conditions have forced the managers to search for similarities with those scientific fields that have just begun to develop, and that try to establish some kind of order in the haphazard phenomena. Recognising similarities between the world of nature and an enterprise have led to the creation of numerous new organisational concepts, which have found their application also in plastic companies.
Measuring Viscosity of Filled Polymer Systems
Vinod B. Warrier, David B. Todd, May 2000
This paper investigates the use of a Helical Barrel Rheometer to measure the viscosity of filled polymer systems. A Helical Barrel Rheometer is an online rheometer developed at the Polymer Processing Institute. The HBR allows us to measure the viscosity of polymer systems under conditions close to that encountered in processing. The viscosity measurement does not require measuring either the torque or the flowrate. The rheometer does not require an entrance correction, avoids bridging of filler particles during measurement and also takes care of the orientation of fillers encountered in processing. This paper uses polypropylene/talc as a filled polymer system. Three different concentrations of three different grades of talc were used to measure the viscosity and a comparison with conventional capillary viscometer was made.
A Study of the Effect of Chlorinated Water on Engineering Thermoplastics at Elevated Temperatures
Steven W. Bradley, Jamal El-Hibri, Bruce H. Bersted, Walter L. Bradley, May 2000
Hot water plumbing applications can often be a severe environment for both metals and plastics. Continual exposure to elevated temperature as well as the oxidative effects of disinfectants such as chlorine can reduce the lifetime of plumbing components. A study was recently conducted to determine the potential degradation effects of hot chlorinated water on several engineering thermoplastics. Weight loss, tensile strength and elongation properties, burst strength retention and microscopy were used to examine the material behavior as a function of exposure time. This data will provide a basis for determining which engineering thermoplastics will be suitable for long-term exposure in hot, potable water.
Morphology and Mechanical Behaviour of Polypropylene Hot Plate Welds
M.J. Oliveira, C.A. Bernardo, D.A. Hemsley, May 2000
Polypropylene tensile bars were hot plate welded and analyzed by microscopy and mechanical tests. The welding process originated deep modifications in the microstructure and shape of the bars at the weld zone. It was observed that the weld morphology was affected not only by the welding parameters but also by the thermal history of the components. The occurrence of oriented textures, coarse spherulites, voids or sharp notches at the beads are determinant morphological factors on the weld quality. The performance of the welds is dependent on the type of testing method used. The tensile impact test showed to be potentially good for quality control, as the fracture behavior was affected by the overall morphology.
Size and Confinement Effects on the Glass Transition
Gregory B. McKenna, May 2000
Since the first measurements of the reduction of the glass transition of small molecule liquids in nanometer pores, there has been an increasing number of studies of the effects of size and confinement on the glass transition of both small molecules and polymers. The measurements coming from different groups often give apparently conflicting results. This paper surveys the state of the field and provides insights into possible reasons for the apparent discrepancies that suggest paths for further investigation.
Computer Design and Screw Optimization
C.A. Thibodeau, P.G. Lafleur, May 2000
Screw design is often the main factor in polymer processing equipments to achieve better quality products or higher outputs. This work presents a new screw design tool based on the use of extrusion softwares and statistical methods that provides a reliable basis for screw design. This method is versatile, not time consuming, and can be applied to many cases in the plastic industry. A specific case in the field of PVC profile extrusion is discussed in detail. Experiments support the new screw design proposed for this application.
The Effect of LDPE-g-AA by a Reactive Extrusion Process
J.F. Kuan, W.H. Lin, H.F. Shen, J.M Huang, May 2000
Acrylic Acid (AA) was grafted onto LDPE to modify its properties by reactive extrusion process. In this study, a co-rotating twin screw extruder and Banbury were mainly used for the reactive grafting process. By changing the configuration of the screw elements, different degrees of shearing effects gave various degree of grafting. It was found that the ratio of LDPE/AA/DHBP=100/10/0.5 with a medium shearing in the extruder gave an optimal result, and the ratio of grafted AA was 4.7%, which was measured via a standard titration process.
Mechanical Performance of a Reinforced Unsaturated Polyester Resin Crosslinked with Divinyl Benzene/1,6 Hexanediol Diacrylate
C.F. Jasso, E. Rosas, R.J. Sanjuan, L.J. González, M.E. Hernández, May 2000
Searching for an advance in mechanical performance, two monomers of high functionality with different spatial structure, were used in this study to crosslink a general purpose reinforced unsaturated polyester resin. Varying the concentration of Divinyl benzene (DVB) and 1,6 Hexanediol diacrylate (HDDA), different crosslinking structures and properties are expected.
Designing a TPO Using ETP Modification Technology
David M. Dean, John A. Foltz, W. Michael Sanford, May 2000
Elastomeric Thermoplastic (ETP) is a patented alloying technology that utilizes ethylene copolymer resins to modify flexible thermoplastic polyolefin (TPO) systems. It is based on the reactive blending of a partially neutralized acid copolymer (ionomer), an epoxy functionalized ethylene copolymer, and a standard TPO. The reaction between the epoxy groups of the ethylene copolymer and the free acid groups of the ionomer results in a partially cross-linked system that forms an in-situ alloy with the TPO. This alloy imparts increased melt strength to the TPO, permitting significant increases in thermoforming performance and grain retention. By varying the amount and type of Surlyn® ionomer within the alloy, a desired mix of mechanical properties, forming performance, and hand can be obtained. As the automotive industry moves toward developing interior components based on thermoplastic polyolefins (TPOs), this ability to customize a TPO-based material for specific applications provides a key advantage for the design engineer. For example, instrument panel skins can now be produced with reduced weight, reduced fogging, and better resistance to heat and UV radiation relative to PVC/ABS, but yet possess the ability to undergo deep draws during thermoforming while maintaining grain definition. Alternatively, formulations have been developed specifically for molded-in-color injection-molded soft-touch surfaces, which require a different balance of melt behavior and physical properties. In this study, we report on the relationship between ionomer content and physical properties in ETP modified TPO systems. The effect of incorporating an ionomer containing a softening acrylate comonomer on the feel" of the modified TPO material as quantified by flexural modulus and durometer is also discussed."
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