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The Use of Iterative Prototyping for a Novel Training CupWalsh, Colleen K. 22 April 2020 (has links)
No description available.
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Additiv tillverkad lösning till kontaktorerAbo saleh, Ahmad Majduldin, N F Adwan, Nouralhuda January 2023 (has links)
Detta examensarbete är på grundnivå som har genomförts under en period av 20 veckor undervåren 2023 och motsvarar 15 högskolepoäng. Projektet har haft som syfte att utveckla ett konceptför en kontaktor och tillämpa additiv tillverkningsteknik som en tillverkningsmetod för konceptet.Uppdragsgivaren för projektet har varit ABB Control Products i Västerås och de har identifieratbehovet av en lämplig lösning för limproblemet i släckpaketet för kontaktorer av storlek nio. Dennuvarande användningen av lim i kontaktorerna ansågs vara ohälsosam och uppfyllde intemiljökraven. Inom ramen för projektet genomfördes en konceptutveckling för att lösa det identifieradeproblemet. Dessutom undersöktes möjligheten att tillämpa additiv tillverkningsteknik ochgenomföra en förenklad kostnadsbedömning för att visa skillnaden i kostnad mellan den nuvarandetillverkningsmetoden och additiv tillverkningsteknik. Produktutvecklingsmetoder användes för attgenomföra projektet, vilket resulterade i ett fungerande teoretiskt koncept. För att sålla ut idéeroch koncept användes en prioriteringsmatris och ett poängsystem. Det resulterande konceptetrepresenteras av CAD-modeller som består av metallplåtar och två delar av det utveckladekonceptet. Konceptet möjliggör en ny design utan användning av lim vid montering. Det har ocksåvisat sig att det är möjligt att ändra tillverkningsmetoden genom att använda additivatillverkningstekniker. Även om prototyperna ännu inte har testats, anses de teoretiska lösningarnavara fungerande.
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Saving Tegelbruket 4 : En hypotetisk transformation av S:t Eriks ögonsjukhus: inredningsarkitektur med vördnad för den senmodernistiska arkitekturen och platsens historiaGraham, Majken January 2024 (has links)
I mitt examensprojekt, Saving Tegelbruket 4, Konstfack 2024, kandidatprogrammet Inredningsarkitektur och möbeldesign, presenterar jag en hypotetisk transformation av S:t Eriks ögonsjukhus. Huset uppfördes 1978 på Kungsholmen i Stockholm och liksom många andra byggnader från denna epok planeras huset att rivas. Rivningarna motiveras ofta med förklaringar som att byggnaderna inte uppfyller dagens standarder och krav. Dessutom finns det en allmän uppfattning att dessa hus är oattraktiva eller rent av fula. I en tid då klimatkrisen är vårt största hot kan vi inte fortsätta riva funktionsdugliga byggnader och måste därför hitta nya sätt för att förvalta det redan existerande. Syftet med Saving Tegelbruket 4 är att vara ett transformationsprojekt som kan bidra med nya metoder för bevarande av senmodernistisk arkitektur. Mina gestaltningar har utgått från byggnaden och platsens historia. Genom att noga studera exteriören har jag skapat en gemensam entré för husets nya verksamheter med stor vördnad för arkitekturens estetiska uttryck, samtidigt som huset får tillåtelse att förändras efter nutida behov. Vidare har jag aktivt försökt inkorporera områdets långa historia av sjukvård i interiören för att förstärka det kollektiva minnet platsen bär på. Mitt övergripande mål är att förslaget jag presenterar gör människor uppmärksamma på det värde senmodernistiska byggnader besitter, vilket förhoppningsvis kan motverka de idag allt för ofta förekommande rivningarna. Interiören jag presenterar har framför allt vuxit fram ur dokumentation från den aktuella platsen i form av fotografier och 3D-skanningar. Utifrån det insamlade materialet har jag utformat en entré som kan liknas vid en homage till byggnadens exteriör. Genom att upprepa, men också till viss del förvränga, material och strukturer som återfinns på husets utsida i interiören, är min förhoppning att människor ska kunna se den stora vita tegelbyggnaden med nya ögon. Baserat på platsens historia har jag gestaltat symboler som kommunicerar tre olika historiska skeenden som utspelat sig i området. Symbolerna blir rummets utsmyckningar och påminner besökare om en svunnen tid.
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Hive : Produktutveckling av en additivt tillverkad sänglampaNilsson, Jens January 2023 (has links)
Normada arbetar med att utveckla additivt tillverkade (3D-printade) möbler i skandinavisk stil och vill nuutöka sin produktportfölj med mindre produkter, såsom en sänglampa. Denna rapport fokuserar på att lösa ettvanligt problem med sänglampor idag, nämligen att de oftast antingen ger riktat ljus lämpligt för läsning ellerspritt ljus som skapar en mysig atmosfär. Det innebär att de sänglampor som människor har hemma antingeninte kan erbjuda en mysig spridd ljusstämning eller att det är svårt att läsa i det utstrålande ljuset. Detta projekthar hotell som målgrupp.Detta projekt syftar till att lösa detta problem genom en designprocess som identifierar dagensanvändarcentrerade utmaningar för att sedan lösa dem under processens gång. Målet är att utveckla en fulltfungerande produkt som är så nära produktionsklar som möjligt. Detta projekt utförs under vårterminen 2023på Luleå tekniska universitetet och är ett examensarbete på kandidatnivå som en del av utbildningen tekniskdesign.Projektet resultera i en sänglampa i skandinavisk stil som är fullt fungerande. Lampan kommer ha riktbarlampskärm med en avbländare som ger en mer spridd ljusupplevelse samtidigt som den tillgodoser möjlighetenatt kunna läsa i ljuset. Lampan har kvar optimeringsmöjligheter men är redo att produceras i små skalor. / Normada specializes in the development of additive manufactured (3D-printed) furniture in Scandinavian styleand aims to expand its product portfolio to include smaller items, such as a bedside lamp. This report focuseson addressing a common problem with bedside lamps today, namely that they typically either provide focusedlight suitable for reading or diffuse light that creates a cozy atmosphere. This means that the bedside lampspeople have at home either cannot offer a pleasant, diffuse lighting experience or it is challenging to read inthe emitted light. This project has hotels as the target group.This project aims to solve this problem through a design process that identifies current user-centered challengesand addresses them throughout the process. The goal is to develop a fully functional product that is as closeto production-ready as possible. The project is conducted during the spring semester of 2023 at LuleåUniversity of Technology as part of the bachelor's degree program in Industrial Design EngineeringThe project will result in a fully functional bedside lamp in Scandinavian style. The lamp will have adirectionally adjustable lampshade and a screen that provides a more even light distribution while fulfilling therequirements for reading. Although the lamp still has optimization possibilities, it is ready for production insmall scales.
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Desenvolvimento e fabricação de uma mini-impressora 3D para cerâmicas / Development and manufacturing of mini 3D printer machine for ceramicsGarcia, Luis Hilário Tobler 14 January 2011 (has links)
O trabalho trata do estudo do processo de impressão tridimensional e desenvolvimento de uma impressora para a produção de corpos-de-prova cerâmicos. A técnica de impressão tridimensional pertence ao grupo de prototipagem rápida e consiste na obtenção de um corpo sólido a partir de um modelo digital de três dimensões, através do fatiamento do modelo tridimensional e da impressão seqüencial de suas respectivas fatias. Durante o processo de impressão, deposita-se um ligante sobre camadas sucessivas de pó e em cada camada, o ligante consolida o pó no formato bidimensional da fatia, que por fim soma-se as outras fatias subseqüentes, consolidando assim o formato tridimensional do modelo. Os equipamentos convencionais de impressão 3D utilizam pós a base de gesso e acrílico, onde o ligante, a base de água, fornece a primeira adesão química; posteriormente é infiltrada uma resina para fornecer uma ligação com o pó de acrílico. Na impressão de cerâmica a base de alumina ou zircônia, o desenvolvimento de ligantes tem de ser realizado visando à adesão química e orgânica combinadas antes da sinterização. Neste projeto, uma mini impressora 3D para corpos de prova foi desenvolvida e com ela foram produzidos corpos de geometria simples e seção constante, cujo projeto, custo, manutenção simplificada e econômica possibilita também o emprego de materiais agressivos nos ligantes, com risco de danificação de componentes, a exemplo de ácido fosfórico, porém com baixo custo de recuperação. Foram analisados diversos tipos pelo dimensionamento de seus aglomerados, fluidez e densidade. Obteve-se pó a base de gesso por R$15,00 o kilograma. Corpos de prova foram analisados com relação à resistência mecânica por flexão de três pontos, densidade, porosidade aparente e imagens por microscopia ótica e microscopia eletrônica de varredura (MEV). Um protótipo de uma mini-impressora foi idealizado, projetado e fabricado, soluções originais e econômicas foram propostas e na sua validação alguns conceitos necessitam de melhorias, ainda assim foram obtidos resultados promissores. Foi desenvolvida uma formulação de pó baseado em gesso que teve o custo de aproximadamente 5% do produto importado. / The work studies the three-dimensional printing process and the development of a 3D printer to produce ceramic specimen. The 3D printing technique belongs to the rapid prototype group and consists in obtaining a solid body from a three-dimensions digital model, through the slicing of the three-dimensional model and the sequential printing of their respective slices. During the printing process, a binder is deposited upon successive powder layers, and in each layer, the binder consolidates the powder into the bi-dimensional shape of the slice, which ultimately adds to the other slices that followed, consolidating the three-dimensional shape model. The conventional 3D printing equipments uses powder based in gypsum and acrylic, where the water-based binder, provides the first chemical bind; subsequently is infiltrated a resin to provide a binding with the acrylic powder. In the ceramic printing based on alumina or zirconia, the development of binders must be accomplished looking for a organic and chemical bind before sintering. In this project, a mini 3D printer for ceramic specimens was developed and built, with it were be produced bodies of simple geometry and constant section, which design, cost and simplified maintenance and cost also enable the use of aggressive materials in binders, with the risk of components damage, such as phosphoric acid, but with low cost to recovery. Were analyzed several types of powders by the sizing of its clusters, fluidity and density. Were obtained gypsum powder for $ 7.00 a kilogram. The specimen were analyzed in relation to the mechanical strength by three-point bending, density, apparent porosity and images by optical microscopy and scanning electron microscopy (SEM). A prototype of a mini 3D printer was designed, engineered and manufactured, unique and economical solutions have been proposed and in its validation some concepts need of improvement, yet promising results were obtained. It was developed a powder formulation based on gypsum that has cost about 5% of the imported product.
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Desenvolvimento e fabricação de uma mini-impressora 3D para cerâmicas / Development and manufacturing of mini 3D printer machine for ceramicsLuis Hilário Tobler Garcia 14 January 2011 (has links)
O trabalho trata do estudo do processo de impressão tridimensional e desenvolvimento de uma impressora para a produção de corpos-de-prova cerâmicos. A técnica de impressão tridimensional pertence ao grupo de prototipagem rápida e consiste na obtenção de um corpo sólido a partir de um modelo digital de três dimensões, através do fatiamento do modelo tridimensional e da impressão seqüencial de suas respectivas fatias. Durante o processo de impressão, deposita-se um ligante sobre camadas sucessivas de pó e em cada camada, o ligante consolida o pó no formato bidimensional da fatia, que por fim soma-se as outras fatias subseqüentes, consolidando assim o formato tridimensional do modelo. Os equipamentos convencionais de impressão 3D utilizam pós a base de gesso e acrílico, onde o ligante, a base de água, fornece a primeira adesão química; posteriormente é infiltrada uma resina para fornecer uma ligação com o pó de acrílico. Na impressão de cerâmica a base de alumina ou zircônia, o desenvolvimento de ligantes tem de ser realizado visando à adesão química e orgânica combinadas antes da sinterização. Neste projeto, uma mini impressora 3D para corpos de prova foi desenvolvida e com ela foram produzidos corpos de geometria simples e seção constante, cujo projeto, custo, manutenção simplificada e econômica possibilita também o emprego de materiais agressivos nos ligantes, com risco de danificação de componentes, a exemplo de ácido fosfórico, porém com baixo custo de recuperação. Foram analisados diversos tipos pelo dimensionamento de seus aglomerados, fluidez e densidade. Obteve-se pó a base de gesso por R$15,00 o kilograma. Corpos de prova foram analisados com relação à resistência mecânica por flexão de três pontos, densidade, porosidade aparente e imagens por microscopia ótica e microscopia eletrônica de varredura (MEV). Um protótipo de uma mini-impressora foi idealizado, projetado e fabricado, soluções originais e econômicas foram propostas e na sua validação alguns conceitos necessitam de melhorias, ainda assim foram obtidos resultados promissores. Foi desenvolvida uma formulação de pó baseado em gesso que teve o custo de aproximadamente 5% do produto importado. / The work studies the three-dimensional printing process and the development of a 3D printer to produce ceramic specimen. The 3D printing technique belongs to the rapid prototype group and consists in obtaining a solid body from a three-dimensions digital model, through the slicing of the three-dimensional model and the sequential printing of their respective slices. During the printing process, a binder is deposited upon successive powder layers, and in each layer, the binder consolidates the powder into the bi-dimensional shape of the slice, which ultimately adds to the other slices that followed, consolidating the three-dimensional shape model. The conventional 3D printing equipments uses powder based in gypsum and acrylic, where the water-based binder, provides the first chemical bind; subsequently is infiltrated a resin to provide a binding with the acrylic powder. In the ceramic printing based on alumina or zirconia, the development of binders must be accomplished looking for a organic and chemical bind before sintering. In this project, a mini 3D printer for ceramic specimens was developed and built, with it were be produced bodies of simple geometry and constant section, which design, cost and simplified maintenance and cost also enable the use of aggressive materials in binders, with the risk of components damage, such as phosphoric acid, but with low cost to recovery. Were analyzed several types of powders by the sizing of its clusters, fluidity and density. Were obtained gypsum powder for $ 7.00 a kilogram. The specimen were analyzed in relation to the mechanical strength by three-point bending, density, apparent porosity and images by optical microscopy and scanning electron microscopy (SEM). A prototype of a mini 3D printer was designed, engineered and manufactured, unique and economical solutions have been proposed and in its validation some concepts need of improvement, yet promising results were obtained. It was developed a powder formulation based on gypsum that has cost about 5% of the imported product.
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Univerzální úsťové zařízení na útočnou pušku / Universal muzzle device for an assault rifleRušar, Filip January 2017 (has links)
This diploma thesis deals with the design of a universal muzzle device for the assault rifle. The device is designed to produce Selective Laser Melting. The main objective is the elimination negative effects of gunshot. The paper explores possibilities of using porous structures for this type of equipment. The influence of individual types of porous structures on the flow of gases is monitored. The universal muzzle device itself is optimized using CFD analyzes. The device was made using SLM technology and experimentally verified. His impact on the impact, gun lift, noise and flame elimination was investigated.
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Design 3D tiskárny / Design of 3D PrinterChrástek, Jan January 2017 (has links)
Diploma thesis is focused on design of stereolithography 3D printer, which includes new technology and innovations to achive larger workspace and easy and comfortable manipulation. Great part of thesis is focused on shaping and aesthetic effect with respect of functional, safety, ergonomic and technical claims.
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Bezpodporový 3D tisk na 6-ti osém robotickém rameni / Supportless 3D print by 6-axis robotic armKrejčiřík, Petr January 2018 (has links)
This diploma thesis deals with the solution 3D printing by KUKA robotic arm without realization of supporting structures. The 6-axis KUKA KR 60HA robotic arm allows adjusting 3D printing strategies compared to classical 3D printing concept. The first part of the diploma thesis is about the identification of the current state of knowledge, especially the state of the experimental device for the robotic 3D print. To improve quality of the printed is necessary to modify the printing head and develop the suitable calibration principle. Special printing strategies were designed to rearch the 3D printing overhead volumes without creating support structure. A special alghoritm in the Grasshopper evnironment was developed for generating 3D print trajectory on the body surface. For the quality improvement it is necessary to optimize the process parameters. The final step is experimental 3D printing with the evaluation of surface dimensions, geometric precision and layer coherence in various printing strategies.
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Stanovení mechanických vlastností materiálů používaných pro 3D tisk / Determination of the mechanical properties of materials used for 3D printingČerný, Martin January 2019 (has links)
The thesis deals with the determination of mechanical properties of materials used for 3D printing (ABS, nylon and PLA). Standardized samples produced using a 3D printer using the Fused Deposition Modeling method were subsequently used for mechanical testing. The work is also extended to determine the mechanical properties of samples made by Soft Tooling. For the production of Soft Tooling samples, polyurethane resins SG 2000 and SG 145 were used. Individual materials were analyzed by mechanical tests (tensile test and hardness test). Surface integrity parameters have also been determined for 3D-printed materials. Parameters were selected from the individual tests (tensile strength, modulus of elasticity) ductility and hardness), which were subsequently statistically processed. The work is concluded by evaluating the results obtained, which were compared with the values given in material sheets.
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