Global ETD Search

211	The mechanism of cyanide formation in the pyrolysis of N-containing polymers and model compounds McAndrew, H. January 1985 (has links) No description available. 668.4 Plastics
212	Property variations in polyethylene articles produced by a variety of moulding methods Godinho, Jorge Emanuel Martins dos Santos January 1997 (has links) No description available. 668.4 Plastics
213	Extrusion and thermoforming of polypropylenes Macauley, Nicola Jayne January 1996 (has links) No description available. 668.4 Plastics
214	A study of heat transfer and process control in the rotational moulding of polymer powders Nugent, Paul James January 1990 (has links) No description available. 668.4 Plastics
215	The development of laminar morphology in a co-rotating twin screw extruder / Rodriguez Veloz, Oscar Alberto. January 1998 (has links) Laminar morphology of high density polyethylene (HDPE)/polyamide-6 (PA-6) blends was obtained, for the first time, in a co-rotating twin screw extruder. The morphology analysis in the interior of the adapter, which connects the extruder with a slit die, revealed that, under specific processing conditions, it is possible to produce layers of PA-6 in the end of the screw zone of the extruder. These layers were visible at very low magnification (6.7X). It was also observed that a high adapter converging angle (70°) produced breakup of the layers, due to the high elongational and shear flow. / The micrographs of the extruded final products showed distributed layers across the sample thickness are along the flow direction. The effect of design variables such as adapter angle and die gap on the final product morphology was studied. The effect of processing variables, including temperature profile, feed rate, and screw speed, were evaluated. speed, were evaluated. (Abstract shortened by UMI.) Plastics Technology.
216	The occurrence of flow marks during injection molding of linear polyethylene Heuzey, Marie-Claude January 1996 (has links) Injection molding is a high rate production process for manufacturing plastic parts. There is often a conflict between good appearance and short cycle time. Injection molded parts can show several types of surface defect. It is believed that wall slip may be associated with some types of defect, because wall slip can modify the distributions of velocity, wall shear stress, pressure and heat flux. The work described here involves an experimental study of the occurrence of flow marks during injection molding of linear polyethylene, and the possible relationship between these defects and wall slip. It also involves the investigation of the feasibility of incorporating wall slip models in the 2.5D computer simulation of the injection molding process. Plastics Technology.
217	Optical sensing of thermoplastics solidification in an injection moulding machine Ramírez Domínguez, Edgar C. January 1998 (has links) An optical technique for monitoring the solidification of thermoplastics in an injection moulding machine was implemented. The technique uses a He-Ne laser that illuminates the mould cavity, and a photomultiplier to measure the intensity of reflected light during the moulding cycle. Data from the sensor allows tracking the injection moulding cycle development. The measured light intensity is mainly influenced by refraction and reflection phenomena at the melt-solid interfaces during solidification. Reflection occurs primarily from the opposite mould wall but the reflection intensity is a complex composite of reflective scattering and refraction from crystallites, the mould wall and as many as six interfaces. The scattering caused by the opposite mould wall roughness also affects the light intensity. Plots of reflection intensity during the injection moulding cycle obtained for the three materials tested show similar patterns. Polystyrene, polypropylene and high-density polyethylene resins were used. The higher scattering power of semi-crystalline polyethylene and polypropylene reduces the reflection intensity values compared to the polystyrene plots. Further experimental and analytical work is required to use this technique for process control purposes. Plastics Technology.
218	Nonlinear viscoelastic behaviour of linear polyethylene : molecular weight effects and constitutive equation evaluations Samurkas, Tony January 1993 (has links) The nonlinear viscoelastic properties of a series of blends of linear polyethylene were studied using the McGill sliding plate rheometer. A more reliable and sensitive shear stress transducer for this rheometer was designed, built and used in this work. The molecular weight dependence of a variety of nonlinear viscoelastic properties was investigated. It was determined that, as with steady state properties, the sensitivity of such properties to molecular weight diminishes with increasing shear rate. The behavior of these materials in large amplitude oscillatory shear (LAOS) was also studied. By using harmonic analysis, the frequency content of the nonlinear stress response to the sinusoidal strain was studied as a function of molecular weight, strain amplitude and frequency. The predictive abilities of the Wagner model in LAOS, exponential shear, start-up and cessation of steady shear and interrupted shear, at high shear rates were evaluated. Qualitative trends were well predicted by the model for a variety of sigmoidal and exponential damping function forms. For the first time, it has been shown that Wagner model predictions for molten thermoplastics are insensitive to the damping function form. The damping functions in simple shear and planar extension were obtained for a branched low density polyethylene (LDPE). Simple shear is similar to planar extension in a rotated reference frame and thus the two flows should have similar damping functions. It was found that the damping functions that fitted these two flows are, in fact, quite different. Thus we have shown that the contribution of kinematics cannot be simply described. Plastics Technology.
219	The thermal expansion coefficient of polypropylene and related composites / Okada, Yoshio, 1928- January 1992 (has links) The variability of thermal expansion coefficients during the molding of plastics causes the development of frozen thermal stresses in the molded parts. Also, the distribution of thermal expansion coefficients of the material in the molded part plays an important role in controlling shrinkage and warpage. In turn, the distribution of linear thermal expansion coefficients (LTECs) depends on the distributions of crystallinity and orientation in the part. In the case of fibre reinforced polymers, the distributions of fibre concentration and orientation are also important. / In this project, a model has been proposed for estimating the LTEC of fibre reinforced plastics as a function of crystallinity, matrix orientation, and fibre concentration and orientation. Also, extensive data have been obtained regarding the LTEC of polypropylene with and without fibre reinforcement. Extruded pellets and injection molded parts were considered. Model predictions have been compared with experimental data. Plastics Technology.
220	Closed loop control of recycled HDPE crosslinking using an inline rheometer Pillo, Antonio January 1993 (has links) This study involves the use of an inline rheometer (ILR) for process control. The ILR is a melt viscosity sensor that is mounted directly in the main process stream. This type of installation minimizes the measurement delay time, which is important for sensors used in process control applications. / The ILR was used for the closed loop control of product viscosity of post-consumer recycled high density polyethylene crosslinking in a twin screw extruder. The manipulated variable is the feed rate of crosslinking agent. Internal model control, Dahlin control, and minimum variance control algorithms were successfully implemented. Plastics Technology.

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