Global ETD Search

1	The impact of oxo-biodegradable polymers on polyethylene recycling. Steenkamp, Daneil Pieter January 2008 (has links) Thesis (MTech. degree in Polymer Technology)--Tshwane University of Technology, 2008. / Aims to determine the effect of the introduction of oxo-biodegradable polymers on the quality of both linear low density polyethylene (LLDPE) and high density polyethylene (HDPE) recycling streams. Polyethylene. Thermoforming.
2	Infrared sensor placement optimization and monitoring in thermoforming ovens Hao, Yuan, 1982- January 2008 (has links) The major focus of the research project is to use infrared sensors associated with virtual sensors to measure the temperature of the heated plastic sheet in a thermoforming oven. In this work, we designed a sensor system to correctly and efficiently measure plastic sheet temperature and reduce the cost of instrumentation. The thesis consists of three parts. The first part is to optimally distribute IR sensors and virtual sensors in order to minimize the number of IR sensor and keep an acceptable accuracy on estimation of virtual sensors under the design constrain. Since IR sensor measurements may be inaccurate due to physical faults during the process, the second part is the sensor faults detection and isolation (FDI) to automatically detect and isolate the faulty sensors. In most situations the faulty sensors cannot be fixed immediately during process or production. Therefore, the last part is to use virtual sensors to replace the faulty IR sensors in order to keep production going. / The thesis project continues the work at the Industrial Automation Lab on sheet reheat phase in thermoforming. While the system model was changed into a larger scale, the modeling methodology and linearization assumption are the same as the previous work, which were verified. As a result, the system model and linearized model can be considered as valid. / As the whole project is only based on simulation, the measurement errors may become larger for the practical application. Thermoforming. Infrared detectors.
3	Mold thermal design and quasi steady state cycle time analysis in injection molding / Hioe, Yunior, January 2006 (has links) Thesis (M.S.)--Ohio State University, 2006. / Includes bibliographical references (leaf 111). Available online via OhioLINK's ETD Center
4	Finite element simulation of thick sheet thermoforming / Mercier, Daniel, January 2006 (has links) Thesis (Ph. D.)--Lehigh University, 2006. / Includes vita. Includes bibliographical references (leaves 191-197). Finite element method. Thermoforming.
5	The basis of thermoforming poly (ethylene-terephthalate) containers Ola, A. O. January 1987 (has links) No description available. 668.4 Polyester thermoforming
6	Infrared sensor placement optimization and monitoring in thermoforming ovens Hao, Yuan, 1982- January 2008 (has links) No description available. Thermoforming. Infrared detectors.
7	A Review of Wheat Gluten-Based Bioplastics Processing and Their Applications Abdullah-Al-Rahim, Md January 2021 (has links) Bioplastics produced from agricultural resources are gaining attraction in recent years because of their sustainability and potential biodegradability. Wheat gluten (a wheat protein) is among the potential feedstocks, which stands out because of its availability, low price, good biodegradability, and good viscoelastic properties. This paper provides state-of-art information on the processing of wheat-based bioplastics with their potential applications. It gives an overview of the structure of wheat gluten, its manufacturing processes (casting, thermoforming, extrusion, compression molding, injection molding), thermal-mechanical properties (tensile strength, elongation at break, young?s modulus, water vapor pressure, gas permeability, etc.) of processed plastic films and rigid products, methods to improve the properties, potential applications (packaging, biomedical, adhesives, cosmetics), and limitations and prospects of wheat-based bioplastics. bioplastics extrusion gluten packaging thermoforming
8	Feature based reverse engineering for thermoforming mould design Tam, Ka-wing., 譚家榮. January 2006 (has links) published_or_final_version / abstract / Mechanical Engineering / Doctoral / Doctor of Philosophy Thermoforming. CAD/CAM systems. Reverse engineering.
9	Feature based reverse engineering for thermoforming mould design / Tam, Ka-wing. January 2006 (has links) Thesis (Ph. D.)--University of Hong Kong, 2006. / Title proper from title frame. Also available in printed format.
10	Terminal iterative learning for cycle-to-cycle control of industrial processes Gauthier, Guy, 1960- January 2008 (has links) The objective of this thesis is to study a cycle-to-cycle control approach called Terminal Iterative Learning Control (TILC) and apply it to the process of plastic sheet heating in a thermoforming oven. Until now, adjustments to the oven heater temperature setpoints have been made manually by a human operator following a trial and error approach. This approach causes financial losses, because plastic sheets are wasted during the period of time when the adjustments are made at the beginning of a production run. Worse, the heater setpoints are subject to modification because of variation in the ambient temperature, which has an important impact on the sheet reheat process. / The TILC approach is analyzed by studying the closed-loop system in the discrete cycle domain through the use of the z-transform. The system, which has dynamic behaviour in the time domain, becomes a static linear mapping in the cycle domain. One can then apply on this equivalent system a traditional control approach, while considering that the system output is sampled once at the end of the cycle. On the other hand, from the standpoint of the real system, this control approach can be viewed as cycle-to-cycle control. / The stability and rate of convergence of the TILC algorithm can be analyzed through the location of the closed-loop system poles in the cycle domain. This analysis is relatively easy for a first-order TILC but becomes more complex for a higher-order TILC algorithm. The singular value decomposition (SVD) is used to simplify the convergence analysis while decoupling the system in the cycle domain. The SVD technique can be used to facilitate the design of higher-order TILC algorithms. / Internal Model Control (IMC) is another approach that can make the ILC design easier, because there is only one parameter per filter to adjust. The IMC technique has an interesting feature. In the case where the system is nominal, the closed-loop transfer function of the system is the same as the IMC filter's transfer function. Therefore, the adjustment of the filter parameter allows the designer to select the desired system response. / For industrial processes such as thermoforming ovens, it is important that the systems controlled by TILC algorithms are stable and have good performance. For thermoforming ovens, the terminal sheet temperature response must not be too oscillatory from cycle to cycle, since this may lead to high heater temperature setpoints. In the most serious case, high heater temperatures can cause the sheet to melt and spill on the heating elements at the bottom of the oven. / The performance aspect must not be neglected, since it is important to minimize the number of wasted plastic sheets, particularly at process startup. To avoid such waste of time and material, it is necessary that the TILC algorithm converge as quickly as possible. However, the robustness and performance objectives are conflicting and an acceptable compromise must be achieved. The control engineer must define specifications to describe these two constraints. Tools such as the Hinfinity Mixed-Sensitivity Analysis and mu-Analysis can be used to check the compliance of a given TILC algorithm with the robustness and performance specifications defined before the analysis. One can therefore compare various TILC algorithms quantitatively, through a computed measure obtained with one of the two approaches. These same tools can be used for the design of TILC algorithms, using weighting functions representing the specifications. / Simulation and experimental results obtained on industrial thermoforming machines show the effectiveness of the various approaches in this thesis. Many examples are also presented throughout the chapters. Intelligent control systems. Iterative methods (Mathematics) Thermoforming.

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