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Modularni sistem za projektovanje alata za injekciono presovanje plastike / Modular system for plastic injection moldingMatin Ivan 15 May 2014 (has links)
<p>U disertaciji se prikazuje modularni sistem za projektovanje alata za<br />injekciono presovanje plastike. Analizirani su različiti prilazi u<br />projektovanu alata. Prikazana je koncepcija i funkcionisanje<br />razvijenog sistema. Verifikacija sistema je izvršena na konkretnim<br />plastičnim proizvodima. Na kraju su dati odgovarajući zaključci i<br />mogući pravci budućih istraživanja.</p> / <p>The dissertation shows the development of the modular system for<br />mold design for plastic injection molding. Different approaches were<br />analyzed in the field of mold design. The concept and functioning of<br />the developed modular system is presented. Validation of the<br />proposed system is made with the specific plastic parts. At the end<br />the appropriate conclusions and possible directions for future<br />research are given.</p>
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Transfer Mold DesignWang, Xiaoyan, Patel, Parthkumar January 2019 (has links)
The following report conducted with the collaboration with the University of Halmstad and Halmstad Gummi Fabric (HGF) rubber company which is in Halmstad. The focus on the project is to reduce the cost of the transfer mold material, increase efficiency of production, save energy and redesign the transfer mold. The methodology used in this project is based on the Quality Functional Deployment (QFD) which is widely appreciated globally in the product development, and other product development and mold design methods, FEM analysis are applied to achieve the goals. The implementation of this methods is efficient and beneficial to reduce the material cost and redesign the transfer mold without compromising the initial quality of the product. This thesis resulted in, for the transfer molding plates we recommended the proper material for the plates and the insulation parts. And we redesign the transfer mold plates and optimized the design for reducing the cost. We did FEM analysis for optimization purpose, and the benefits to optimizing this is to reduce the material cost, machining cost and labour cost. As well as, we add the insulation plates in the design so that the transfer molding plates works efficiently with the reducing the energy wastes.
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Návrh technologie výroby závitové koncovky z plastu / Technology design manufacturing threaded plastic endsVrátný, Martin January 2017 (has links)
This diploma thesis submits a proposal of technology design manufacturing threaded plastic ends. In the first part it deals with literary studies of plastics and plastic injection molding. In the second part is the design of an injection form for the specified component. Part of the practical part is also the right choice of material and the injection mold, which was designed based on the calculations of technological parameters. In the conclusion of this thesis is technical economic evaluation.
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A BASIC UNDERSTANDING OF RAPID MOLD SURFACE HEATING VIA LASER ENERGYFox, Charles Daniel 09 July 2012 (has links)
No description available.
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Investigation of Mold Design and Process Parameters in Microinjection Molding to Fabricate a Deformable Membrane MirrorEl-Taleb, Ahmed Salem 26 December 2013 (has links)
No description available.
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Řešení výroby součásti "Klapka APZ13" / The solution for the production of the part "APZ13 flap"Betáš, Martin January 2019 (has links)
This master‘s thesis deals with the solution of the production of the given part "APZ13". The structural analysis of the component is followed by the choice of the available manufacturing technology. The following is a theoretical description of the chosen technology and injection mold. Its solution is practically described in the following chapter and then the creation of TPV documentation of the whole project. The conclusion of this master’s thesis is a technical-economic evaluation of the chosen technology and discussion.
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Technologie výroby plastového držáku střešního nosiče / Production technology of plastic holder roof rackNevřivý, Lukáš January 2016 (has links)
This master’s thesis focuses on a design of injection mold which is used for manufacturing of a plastic holder of roof rack. The first part includes shape analysis of the holder and explains function of the product as well as specify essential requirements which must be met. The choice of the most suitable manufacturing technology is followed by theoretical part which deals with literature review of plastic materials, technology of injection molding and basics of injection mold designing. Practical part includes overall design of the mold for the holder of roof rack based on technological calculations. Practical part is followed by mold flow analysis simulation showing suitability of designed mold along with selection of suitable injection molding machine based on product construction design and technological process of manufacturing. The conclusion of master’s thesis includes an economical evaluation of proposed manufacturing technology.
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Technologie výroby plastové pružné spony / Production technology flexible plastic clipMikulenka, Martin January 2011 (has links)
Currently, the plastics industry has a wide range of applications due to the possibility of a fully automated process or through increased production efficiencies. The reason for this choice of the thesis was to understand the whole issue of plastic injection molding process. The specified component is used to atach the sail, which serves to protect workers in the welding sector. A specified number of the series is 350 000. The work includes a theoretical problem of injection molding process, selection of technology, material selection and design of mold. An integral part of every design mold is a simulation of injection, which is also included. In conclusion of thesis is the calculation of the various stages of production and operation of the injection mold.
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Tectonic Potentials of Earthen Materials: Post-Tensioned StructuresMaher, Joy Samuel Labib 22 July 2024 (has links)
[ES] A lo largo de los años, numerosos materiales de construcción han sido objeto de experimentación y mejoras tecnológicas para cumplir con sus propósitos previstos y mantenerse competitivos en la industria de la construcción. En una era marcada por crecientes preocupaciones sobre el cambio climático, la selección de materiales de construcción con bajo impacto de carbono es fundamental. Sin embargo, materiales locales como la tierra carecen de los avances técnicos y la integridad estructural necesarios para lograr una adopción generalizada entre arquitectos y la sociedad.
Si bien los materiales a base de tierra ofrecen beneficios ambientales innegables, como baja energía incorporada y emisiones de carbono, persisten dudas sobre su rendimiento técnico y su fiabilidad estructural. Los arquitectos y constructores a menudo prefieren opciones convencionales percibidas como más fiables.
La tesis busca explorar las posibilidades arquitectónicas de los materiales de tierra, examinando formas de integrarlos en varios elementos arquitectónicos y proponiendo enfoques de diseño innovadores, como estructuras postensadas, para mejorar su usabilidad y ampliar sus aplicaciones. El objetivo es capitalizar las cualidades únicas de los materiales terrosos y desafiar la noción predominante de ellos como formas estandarizadas y planas, abordando las preocupaciones de viabilidad.
La metodología de investigación emplea un método mixto concurrente, que combina datos experimentales con observaciones del comportamiento del material para derivar resultados. A través de un proceso de experimentación de tres fases, se prueban rigurosamente variables como materiales de moldeo, mezclas de tierra y estructuras postensadas. El diseño iterativo y las pruebas meticulosas refinan las técnicas de fabricación, asegurando la solidez del diseño de investigación.
En resumen, esta tesis avanza significativamente los materiales de construcción contemporáneos y la ingeniería arquitectónica. A través de la innovación y la colaboración interdisciplinaria, facilita la creación de estructuras funcionales y estéticamente agradables que se integran perfectamente con su entorno, al tiempo que empujan los límites de los paradigmas de diseño convencionales. / [CA] Al llarg dels anys, nombrosos materials de construcció han sigut objecte d'experimentació i millores tecnològiques per a complir amb els seus propòsits previstos i mantindre's competitius en la indústria de la construcció. En una era marcada per creixents preocupacions sobre el canvi climàtic, la selecció de materials de construcció amb baix impacte de carboni és fonamental. No obstant això, materials locals com la terra manquen dels avanços tècnics i la integritat estructural necessàries per a aconseguir una adopció generalitzada entre arquitectes i la societat.
Encara que els materials a base de terra ofereixen beneficis ambientals innegables, com baixa energia incorporada i emissions de carboni, persisteixen dubtes sobre el seu rendiment tècnic i la seua fiabilitat estructural. Els arquitectes i constructors sovint prefereixen opcions convencionals percebudes com més fiables.
La tesi busca explorar les possibilitats arquitectòniques dels materials de terra, examinant maneres d'integrar-los en diversos elements arquitectònics i proposant enfocaments de disseny innovadors, com ara estructures postensades, per a millorar la seua usabilitat i ampliar les seues aplicacions. L'objectiu és capitalitzar les qualitats úniques dels materials terris i desafiar la noció predominant d'ells com a formes estandarditzades i planes, abordant les preocupacions de viabilitat.
La metodologia de recerca empra un mètode mixt concurrent, que combina dades experimentals amb observacions del comportament del material per a derivar resultats. A través d'un procés d'experimentació de tres fases, es proven rigorosament variables com ara materials de motlleig, mesclades de terra i estructures postensades. El disseny iteratiu i les proves meticuloses refinen les tècniques de fabricació, assegurant la solidesa del disseny de recerca.
En resum, aquesta tesi avança significativament els materials de construcció contemporanis i l'enginyeria arquitectònica. A través de la innovació i la col·laboració interdisciplinària, facilita la creació d'estructures funcionals i estèticament agradables que s'integren perfectament amb el seu entorn, alhora que impulsen els límits dels paradigmes de disseny convencionals. / [EN] Over the years, numerous building materials have undergone experimentation and technological enhancements to meet their intended purposes and remain competitive in the construction industry. In an era marked by escalating climate change concerns, the selection of low-carbon footprint building materials is paramount. However, local materials like earth lack the necessary technical advancements and structural integrity to garner widespread adoption among architects and society.
While earth-based materials offer undeniable environmental benefits, including low embodied energy and carbon emissions, doubts persist regarding their technical performance and structural reliability. Architects and builders often prefer conventional options perceived as more dependable.
The thesis seeks to explore the architectural possibilities of earthen materials, examining ways to integrate them into various architectural elements and proposing innovative design approaches, such as post-tensioned structures, to enhance their usability and broaden their applications. The objective is to capitalize on the unique qualities of earth materials and challenge the prevailing notion of them as standardized, flat forms while addressing feasibility concerns.
The research methodology employs a concurrent mixed method, combining experimental data with observations of material behavior to derive outcomes. Through a three-phase experimentation process, variables such as mold materials, earth mixtures, and post-tensioned structures are rigorously tested. Iterative design and meticulous testing refine fabrication techniques, ensuring the robustness of the research design.
In summary, this thesis significantly advances contemporary building materials and architectural engineering. Through innovation and interdisciplinary collaboration, it facilitates the creation of functional, aesthetically pleasing structures that seamlessly integrate with their environment while pushing the boundaries of conventional design paradigms. / Maher, JSL. (2024). Tectonic Potentials of Earthen Materials: Post-Tensioned Structures [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/207011
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