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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Haimei Li , Yiyan Peng , Lih-Sheng Turng , Xin Wang, May 2010
Residual stresses in injection molded parts may have
negative effects on optical and mechanical properties. It is
usually two types residual stresses in the injection molded
parts - flow-induced and thermally-induced stresses. In
this paper thermal residual stresses are investigated by
comparing tensile properties of the injection molded PC
parts before and after annealing. A dielectrostrictive
sensor is developed to conduct the flow-induced stress
analysis during filling stage. The physical meaning of
obtained dielectrostriction signals is given based on the
experimental and numerical results. First the pressure
measured by the transducers was compared with the
numerical simulated results. These two values agree well
which indicates that the numerical prediction should also
be reliable for shear stress analysis. Then the shear stress
calculated based on the measured dielectrostriction signal
was compared with its corresponding numerical result.
And it has been found that the difference between these
two values within 5% at the various processing condition.
Haimei Li , Yiyan Peng , Lih-Sheng Turng , Xin Wang, May 2010
Residual stresses in injection molded parts may have negative effects on optical and mechanical properties. It is usually two types residual stresses in the injection molded parts - flow-induced and thermally-induced stresses. In this paper, thermal residual stresses are investigated by comparing tensile properties of the injection molded PC parts before and after annealing. A dielectrostrictive sensor is developed to conduct the flow-induced stress analysis during filling stage. The physical meaning of obtained dielectrostriction signals is given based on the experimental and numerical results. First the pressure measured by the transducers was compared with the numerical simulated results. These two values agree well, which indicates that the numerical prediction should also be reliable for shear stress analysis. Then the shear stress calculated based on the measured dielectrostriction signal was compared with its corresponding numerical result.And it has been found that the difference between these two values within 5% at the various processing condition.
H. C. Chen , S. C. Chen , P.M. Hsu , H. S. Peng , Y. C. Wang, May 2010
In-mold roller (IMR) injection molding is one of the
commonly used In-Mold Decoration technology for ink
transfer. The effect of processing parameters on part‘s
warpage is very important for product quality. In this
study the PET film with thickness of 0.05mm and
0.036mm is molded and computer simulation analysis is
performed to compare the result with experiment. It was
found that high melt temperature and thick film would
result in heat stagnation between surface-frozen layer and
film interface leading to a large part’s warpage. However
a high mold temperature resulted in a low warpage. For
IMR molding the mold temperature difference between
core and cavity surface was about 6.71~12.94? and the
warpage varied from 0.15mm to 0.91mm under specified
conditions.
H. C. Chen , S. C. Chen , P.M. Hsu , H. S. Peng , Y. C. Wang, May 2010
In-mold roller (IMR) injection molding is one of the commonly used In-Mold Decoration technology for ink transfer. The effect of processing parameters on partƒ??s warpage is very important for product quality. In this study, the PET film with thickness of 0.05mm and 0.036mm is molded and computer simulation analysis is performed to compare the result with experiment. It was found that high melt temperature and thick film would result in heat stagnation between surface-frozen layer and film interface leading to a large partƒ??s warpage. However, a high mold temperature resulted in a low warpage. For IMR molding, the mold temperature difference between core and cavity surface was about 6.71~12.94ƒ?Ÿ and the warpage varied from 0.15mm to 0.91mm under specified conditions.
Scott E. Everett, Mauricio J. Hernandez, Rickey Dubay, May 2010
In injection molding, final product quality is influenced by the cycle average mold cavity temperature, which depends on the mold coolant flow-rate. The design of a generic average temperature controller is difficult due to the nonlinear characteristics of the in-mold part cooling process. In this investigation, the parameters of a lumped-model are obtained using artificial neural network techniques to develop a generic model-based control scheme that can be implemented in a variety of molds with minimal open loop testing.
Scott E. Everett , Mauricio J. Hernandez , Rickey Dubay, May 2010
In injection molding final product quality is
influenced by the cycle average mold cavity temperature
which depends on the mold coolant flow-rate. The design
of a generic average temperature controller is difficult due
to the nonlinear characteristics of the in-mold part cooling
process. In this investigation the parameters of a lumpedmodel
are obtained using artificial neural network
techniques to develop a generic model-based control
scheme that can be implemented in a variety of molds with
minimal open loop testing.
Yuji Fujita , Naoya Aoki , Toshihiro Yoshida , Hironari Sano , Masaya Kotaki, May 2010
Polypropylene (PP)-based sandwich injection moldings with polybutylene succinate (PBS) alloys in core were studied. Different core morphologies of PBS/PP alloys were obtained by changing content and melt flow rate (MFR) of PBS and core-PP, and injection molding conditions. It was found that the core morphologies significantly affected skin/core interfacial adhesion and mechanical properties of the sandwich injection moldings. The spreading index considering dynamic viscosity and volume fraction of PBS and core-PP was proposed to discuss the mechanism of the core morphology development. Scratch and Izod impact tests according to ASTM standards were performed to investigate the effects of skin/core adhesion on scratch and impact characteristics.The sandwich injection moldings with poor skin/core adhesion caused the skin/core delamination upon the scratch and Izod impact tests.
Impregnation of linseed epoxy resin into softwood creates an all-renewable composite. This composite is intended to be a substitute for expensive hardwoods used in applications such as decking and flooring. Initial epoxy impregnation was conducted within a custom vacuum-pressure chamber with positive results. The impregnation process begins with an initial vacuum treatment to remove the air inside the wood, followed by the use of pressure to drive the resin into the wood under certain temperature conditions. This process was improved by optimizing vacuum-pressure levels and temperature, as well as the use of a high temperature curing agent. In this way, superior impregnation depths were obtained. The final result was a composite material with better mechanical properties than both the resin and the softwood themselves. Specifically, the impregnated samples showed Youngƒ??s modulus over three times higher than those of unimpregnated wood samples, in both tension and compression. Furthermore, the hardness of the wood increased significantly; depending on impregnation depth, hardness reached and surpassed 4500 lbf, the estimated value of Lignum Vitae, the hardest wood available. Secondary testing focused on automation of the initial process in order to facilitate optimized impregnation on an industrial scale. A custom multi-chambered impregnation machine was designed to perform a continuous impregnation.
Jing Wang, Wenli Zhu, Chul B. Park, Jed Randall, May 2010
Much work has been done to model the behavior of platelet-filled hybrid barrier materials and produce high barrier polymer/nanoclay composites with low clay contents. Little has been done to test the applicability of these models over a wide range of clay contents and determine whether current systems are near ideal or could be further improved. In this work, cyclic olefin copolymers are combined with organically modified montmorillonite clay via a spray deposition technique to create transparent, highly aligned model hybrids containing up to 100% clay. The structure and properties of these sheets are then characterized via XRD, DMA and OPA.
Jing Wang , Wenli Zhu , Chul B. Park , Jed Randall, May 2010
Microcellular foams of polylactic acids (PLA) with
and without molecular branching were produced on a
tandem extrusion system using carbon dioxide as the
physical blowing agent. Cell density and expansion ratio
were found to be strong functions of the molecular
structure the blowing agent content and the processing
temperature. Very low density foams were produced with
the branched PLA at the optimal processing condition
while the linear PLA exhibited severe cell opening beyond
a reasonable expansion ratio. Very low crystallinity was
detected in the foamed samples indicating that shearing
and the presence of supercritical carbon dioxide in the
extrusion system did not induce crystal growth.
Jing Wang , Wenli Zhu , Chul B. Park , Jed Randall, May 2010
Microcellular foams of polylactic acids (PLA), with and without molecular branching, were produced on a tandem extrusion system using carbon dioxide as the physical blowing agent. Cell density and expansion ratio were found to be strong functions of the molecular structure, the blowing agent content, and the processing temperature. Very low density foams were produced with the branched PLA at the optimal processing condition, while the linear PLA exhibited severe cell opening beyond a reasonable expansion ratio. Very low crystallinity was detected in the foamed samples, indicating that shearing and the presence of supercritical carbon dioxide in the extrusion system did not induce crystal growth.
Lei-Ti Huang, Ping-Shun Hsu, Shia-Chung Che, May 2010
Measurement of surface appearance often fails to predict mechanical failure while bulk mechanical testing confirms failure only after prolonged exposure in weathering. In this study, we attempt to detect small changes in surface mechanical properties during initial stages on the weathered surface of polycarbonate-based materials using surface sensitive nano-indentation technique. Samples were also characterized using various techniques including transmission electron microscopy and infrared spectroscopy. Information on the degradation layer thickness may help in assessing mechanical failure of polymer during early stages. Studies show the superiority of Lexan* SLX resin over polycarbonate in weathering.
Lei-Ti Huang , Ping-Shun Hsu , Shia-Chung Che, May 2010
Polytetrafluoroethylene (PTFE) is a remarkable membrane material. Due to its high melting point, PTFE cannot be processed using the conventional melting processing methods. In addition, porous materials have been used in many industrial technologies and life surroundings. Plastic expansion technology has created a new class of filter material, called expanded PTFE (ePTFE). The material comprises a highly fibrillated and porous microstructure that contributes to its excellent filter capability. In this paper, different stretching ratio, asymmetry heating temperature, and different heating time was used to modify the ePTFE membrane pore size. It was found that a longer heating times and lower stretching times, the porosity of PTFE membrane was increased from 30 to 70% and the mean pore size was decreased from 0.22 to 0.08 ?¬m.
Warpage is one of the most crucial problems in
injection molding quality control. Since many factors will
cause shrinkage and warpage it is very difficult to
distinguish which factor always dominates warpage. In
this study we have developed Three Dimensional
Thickness Control Method (3DTCM) to manage the
warpage of the injected parts. Using this method we will
specify the geometry of parts with non-uniform three
dimensional structures. After integrated with special gate
design material selection various operation conditions
warpage of injected parts can be managed significantly.
Also to verify our results both numerical and
experimental investigation will be performed in this study.
Warpage is one of the most crucial problems in injection molding quality control. Since many factors will cause shrinkage and warpage, it is very difficult to distinguish which factor always dominates warpage. In this study, we have developed Three Dimensional Thickness Control Method (3DTCM) to manage the warpage of the injected parts. Using this method, we will specify the geometry of parts with non-uniform three dimensional structures. After integrated with special gate design, material selection, various operation conditions, warpage of injected parts can be managed significantly. Also, to verify our results, both numerical and experimental investigation will be performed in this study.
Abul B.M. Saifullah , S. H. Masood , Igor Sbarski, May 2010
Cooling channel design in injection moulding is very important as it greatly affects the cycle time as well as the shrinkage and warpage of the plastic part. Traditionally, cooling channels have been machined into mould components with gun-barrel drilling, with that only straight channels were possible to manufacture. An advanced method of cooling system that 'conforms' to the shape of the part in the mould can be made possible with free form fabrication technique such as DMD (direct metal deposition). This paper presents an investigation on the optimization of mould design of conformal cooling channels of different cross sections for plastic injection moulding. Comparative study has been done with the conventional straight cooling channels. ANSYS thermal simulation software has been used to get comparative temperature profile on the mould and Moldflow simulation software has been used to compare shrinkage, warpage and temperature profile of the part itself during moulding process . Comparative results are presented based on temperature distribution and cooling time for the mould and warpage deflection, volumetric shrinkage and temperature profile of the part. The results provide a uniform temperature distribution with reduced shrinkage and warpage and reduction in cycle time for the plastic part.
The overall objective of this research was to prepare paclitaxel-delivering poly(L-lactic acid) (PLA) - poly(hydroxyalkanoate) (PHA) blend films focusing on drug attachment to the films. Blend films (10 wt% PHA) were melt extruded using a single screw extruder. A sequential two step photografting approach was used to photograft poly(acrylic acid) (PAA) to the film surface.Acid groups from PAA were then reacted with a specific ƒ?? OH group on paclitaxel using water soluble carbodiimide chemistry. To assess the extent of drug attachment the resultant films were characterized using ATR-FTIR spectroscopy.
The overall objective of this research was to prepare
paclitaxel-delivering poly(L-lactic acid) (PLA) -
poly(hydroxyalkanoate) (PHA) blend films, focusing on
drug attachment to the films. Blend films (10 wt% PHA)
were melt extruded using a single screw extruder. A
sequential two step photografting approach was used to
photograft poly(acrylic acid) (PAA) to the film surface.
Acid groups from PAA were then reacted with a specific –
OH group on paclitaxel using water soluble carbodiimide
chemistry. To assess the extent of drug attachment, the
resultant films were characterized using ATR-FTIR
spectroscopy.
Shia-Chung Chen , Jen-An Chang , Jin-Chuan Cin, May 2010
The study shows the molding of a high gloss surface notebook computer (NB) display support without painting using dynamic mold temperature control. The required mass production rate is 300,000 pieces per month. Both water heating/cooling and induction heating/water cooling were employed to investigate the cycle time, mold and machine requirements. The former requires 60s cycle time whereas the later needs only 36s to achieve a weld line free surface. The associated cost reduction in energy consumption is US $23,700 per month, injection machine operation is US $52,800 per month, mold making cost is US $75,000 and painting cost saving is US $190,500. Annual savings could reach US $3,237,900.
William M. Aquite, Iván D. López, Tim A. Osswald, May 2010
Polymer flow through circular tubes is a common occurrence in injection molding runner systems. Viscous dissipation affects the temperature distribution of the melt as it enters the cavity. The Radial Functions Method was used to model the flow and heat transfer inside runner systems in dimensionless form. Temperature increases are obtained from simple expressions as a function of the dimensionless Brinkman and Graetz numbers. This eliminates the necessity of simulation or experimental test of such flows when predicting temperature increments as a function of processing conditions.
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Brown, H. L. and Jones, D. H. 2016, May.
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Society of Plastics Engineers
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