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1	Prediction of shrinkage and warpage in injection moulded components using computational analysis / Riddles, Mornay. January 1900 (has links) Thesis (MTech (Mechanical Engineering))--Peninsula Technikon, 2003. / Word processed copy. Summary in English. Includes bibliographical references (leaves 60-63). Also available online.
2	Injection molding control : from process to quality / Yang, Yi. January 2004 (has links) Thesis (Ph. D.)--Hong Kong University of Science and Technology, 2004. / Includes bibliographical references (leaves 218-244). Also available in electronic version. Access restricted to campus users.
3	A parametric study of microcellular ABS foam production in the injection molding process Finniss, Adam. January 2008 (has links) Thesis (M.S.)--West Virginia University, 2008. / Title from document title page. Document formatted into pages; contains xiii, 101 p. : ill. (some col.). Includes two zip files of TIF images. Includes abstract. Includes bibliographical references (p. 93-94).
4	Mechanical properties and compostability of injection-moulded biodegradable compositions Burns, Mara Georgieva. January 2008 (has links) Thesis (M.Sc.(Chemical Engineering))--University of Pretoria, 2007. / Abstract in English. Includes bibliographical references (leaves 74-80).
5	Closed-loop flow control approaches for VARTM Nalla, Ajit R. January 2006 (has links) Thesis (M.S.M.E.)--University of Delaware, 2006. / Principal faculty advisor: James Glancey, Dept. of Bioresources Engineering. Includes bibliographical references.
6	An expert product development system for plastic injection moulding parts / Chin, Kwai-sang. January 1996 (has links) Thesis (Ph. D.)--University of Hong Kong, 1996. / Includes bibliographical references.
7	Koncepční návrh projektu vzorové lisovny plastů / Concept of pilot project for plastics manufacturing Tůma, Martin January 2010 (has links) The aim of this thesis is design of technology project for plastic manufacturing. The theoretical part is focused on the characteristics of plastics and plastics production, especially for injection molding of thermoplastics. In the practical part are presented the calculations needed to choice of the injection molding machines and the capacity calculations to determine consumption of granulate and productivity of injection molding machines. Part of this thesis is a list of optimal machinery, including the required peripherals and handling devices complying with the current requirements of a modern plastic manufacturing. The result of this thesis is an economic evaluation of investment costs of machinery for small and medium-sized plastic manufacturing.
8	Optimalizace technologických parametrů vstřikování plastového dílce / Optimization of technological parameters of injection plastic parts Ulrich, Josef January 2014 (has links) This thesis describes the optimalization of technological parameters during commissioning of injection mold manufacturing. In the introduction, there is general literary studies of plastics, injection molds, injection holding machine, injection holding technology and their effect on quality. The practical part includes an analysis of current state, calculation of injection parameters, moldflow analysis and sampling on the machine. Finally, there is choice of optimal injection holding parameters, design of workplace and technical-economic evaluation.
9	Wireless Networking in Future Factories: Protocol Design and Evaluation Strategies Naumann, Roman 17 January 2020 (has links) Industrie-4.0 bringt eine wachsende Nachfrage an Netzwerkprotokollen mit sich, die es erlauben, Informationen vom Produktionsprozess einzelner Maschinen zu erfassen und verfügbar zu machen. Drahtlose Übertragung erfüllt hierbei die für industrielle Anwendungen benötigte Flexibilität, kann in herausfordernden Industrieumgebungen aber nicht immer zeitnahe und zuverlässige Übertragung gewährleisten. Die Beiträge dieser Arbeit behandeln schwerpunktmäßig Protokollentwurf und Protokollevaluation für industrielle Anwendungsfälle. Zunächst identifizieren wir Anforderungen für den industriellen Anwendungsfall und leiten daraus konkrete Entwufskriterien ab, die Protokolle erfüllen sollten. Anschließend schlagen wir Protokollmechanismen vor, die jene Entwurfskriterien für unterschiedliche Arten von Protokollen umsetzen, und die in verschiedenem Maße kompatibel zu existierenden Netzwerken und existierender Hardware sind: Wir zeigen, wie anwendungsfallspezifische Priorisierung von Netzwerkdaten dabei hilft, zuverlässige Übertragung auch unter starken Störeinflüssen zu gewährleisten, indem zunächst eine akkurate Vorschau von Prozessinformationen übertragen wird. Für deren Fehler leiten wir präziser Schranken her. Ferner zeigen wir, dass die Fairness zwischen einzelnen Maschinen durch Veränderung von Warteschlangen verbessert werden kann, wobei hier ein Teil der Algorithmen von Knoten innerhalb des Netzwerks durchgeführt wird. Ferner zeigen wir, wie Network-Coding zu unserem Anwendungsfall beitragen kann, indem wir spezialisierte Kodierungs- und Dekodierungsverfahren einführen. Zuletzt stellen wir eine neuartige Softwarearchitektur und Evaluationstechnik vor, die es erlaubt, potentiell proprietäre Protokollimplementierungen innerhalb moderner diskreter Ereignissimulatoren zu verwenden. Wir zeigen, dass unser vorgeschlagener Ansatz ausreichend performant für praktische Anwendungen ist und, darüber hinaus, die Validität von Evaluationsergebnissen gegenüber existierenden Ansätzen verbessert. / As smart factory trends gain momentum, there is a growing need for robust information transmission protocols that make available sensor information gathered by individual machines. Wireless transmission provides the required flexibility for industry adoption but poses challenges for timely and reliable information delivery in challenging industrial environments. This work focuses on to protocol design and evaluation aspects for industrial applications. We first introduce the industrial use case, identify requirements and derive concrete design principles that protocols should implement. We then propose mechanisms that implement these principles for different types of protocols, which retain compatibility with existing networks and hardware to varying degrees: we show that use-case tailored prioritization at the source is a powerful tool to implement robustness against challenged connectivity by conveying an accurate preview of information from the production process. We also derive precise bounds for the quality of that preview. Moving parts of the computational work into the network, we show that reordering queues in accordance with our prioritization scheme improves fairness among machines. We also demonstrate that network coding can benefit our use case by introducing specialized encoding and decoding mechanisms. Last, we propose a novel architecture and evaluation techniques that allows incorporating possibly proprietary networking protocol implementations with modern discrete event network simulators, rendering, among others, the adaption of protocols to specific industrial use cases more cost efficient. We demonstrate that our approach provides sufficient performance and improves the validity of evaluation results over the state of the art. Drahtlosnetzwerke Plastikspritzguss Industrienetzwerke Protokollentwurf Diskrete Kosinustransformation Network Coding Diskrete Ereignissimulation Evaluationstechniken Priorisierung Wireless networks Plastics injection molding Industrial networks Protocol design Discrete cosine transform Network coding Discrete event simulation Protocol evaluation Prioritization ST 200 ddc:000

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