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ADALFIC
- /en/research-topics/wire-based-additive-manufacturing/projects/adalfic
ADALFIC Advanced Aluminium Fittings in CFRP tubes ESA has for quite some time been interested in masts, platform reinforcements and flexible structures that combine precision, robustness, foldability and [...] and lightness. Aluminium and carbon fibre reinforced plastics are considered promising in this context due to their mechanical properties and low density. ADALFIC is developing new connections between [...] between composite tubes and aluminium fittings. The goals are weight savings, lower costs, higher performance efficiency and solving problems of conventional techniques. Versatile use for payloads and platforms
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in search of the materials of the future
advance light metals for future industrial applications COMET Project AMALFI: Development of new aluminium and magnesium alloys for future industrial applicationsGoal: Alloy and process advancement under [...] Together with an interdisciplinary research team, they will research and further develop advanced aluminium and magnesium alloys, taking into account different production and processing chains.The AMALFI [...] will also focus on a basic research topic: the development of novel microstructure models for aluminium and magnesium alloys. "These models are important because they have the potential to decisively
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DEDAluS
- /en/research-topics/wire-based-additive-manufacturing/projects/dedalus
DEDAluS Additive manufacturing by means of DED process of aluminium structures The main objective of DEDAluS is to develop an aluminium alloy for Wire-Arc Additive Manufacturing (WAAM) by using new approaches [...] for further development will be investigated. On this basis, an experimental development of an aluminium alloy for wire-arc AM will be carried out. The new alloy will be validated with the help of material [...] of promising alloy systems and further development strategies. Experimental alloy development of aluminium wires for the DED-AM process. Process adaptation and validation of the material properties on the
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LH2-WAM-Tank
- /en/research-topics/wire-based-additive-manufacturing/projects/lh2-wam-tank
of the "LH2-WAM-Tank" project is the development of a lightweight liquid hydrogen tank made of aluminium using wire-based additive manufacturing (WAM) technology. Studies are being carried out on critical [...] situation and project goals Stainless steel is too heavy a tank material for aviation mobility systems. Aluminium offers itself as a suitable structural material to reduce weight and significantly increase gravimetric [...] of known manufacturing methods. Research at the LKR has shown the enormous potential of WAM for aluminium in terms of material, manufacturing and functional integration. In the context of the development
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AIT auf der Euroguss 2018
Fachmesse für Druckguss. Im Fokus stehen dieses Jahr innovative Lösungen für Druckgussverfahren (Aluminium, Magnesium und Zink) sowie Rapid Prototyping, Druckgussmaschinen und Werkstoffprüfung. AIT Wiss [...] Werkstoffe und Forschungsergebnisse: schwer entflammbare Magnesiumlegierungen, sowie neue, modifizierte Aluminium- und Magnesiumwerkstoffe für das Additive-Manufacturing-Schweißen. Zudem präsentiert sich das LKR
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ALUMINIUM 2018: LKR presents magnesium highlights
ntrum Ranshofen presents the latest research results of the magnesium alloy development at the ALUMINIUM 2018. Date: 09. - 11. October 2018 Location: Messe Düsseldorf, Hall 10, Magnesium Area, Booth 10I45
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AIT scientist wins international award for the best dissertation in the field of stereology and image analysis
particles from backscattered electron images. In addition, he developed a new preparation method for aluminium alloys, which greatly improves the contrast of Mg-Si precipitates and thus significantly increases [...] at AIT and the University of Salzburg in close cooperation with the industrial partner Hammerer Aluminium Industries (HAI). Dr. Österreicher presented his work at the invitation of the ISSIA on 29 May 2019
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AIT Materials Scientist awarded with Best Poster Award
topic of her poster was "automatic analysis and numerical prediction of flow stress curves for aluminium alloys". Kabliman and the entire research team are happy and proud of this achievement. Congratulations
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We3D: Lightmetals Components from the 3D Printer
lly unlimited component size. At the LKR Leichtmetallkompetenzzentrum Ranshofen, both standard aluminium- and magnesium-based welding consumables as well as special process-designed wire-alloys developed [...] This means that large 3D components can be produced from new WAM-compatible welding wires made of aluminium and magnesium in a material and energy-saving, high-quality, cost-effective and time-efficient manner
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EUROGUSS 2018: LKR präsentiert neues Gießportfolio
se im Bereich Leichtbau vorgestellt, wie brandbeständige Magnesiumlegierungen und modifizierte Aluminium- und Magnesiumwerkstoffe für das Additive-Manufacturing-Schweißen. Das LKR Leichtmetallkompetenzzentrum
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TMS Conference 2018 in Phoenix, Arizona
properties of non-flammable Mg-Al-Zn-Ca-Y alloys": "Our research has shown that modifying magnesium-aluminium alloys with small amounts of calcium and yttrium improves the materials’ oxidation resistance
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Das waren die 9. Ranshofener Leichtmetalltage 2016 in Bad Ischl
wie der Siemens AG Österreich, Hermle Maschinenbau GmbH, voestalpine Metal Forming GmbH, Hammerer Aluminium Industries Extrusion GmbH oder Magna Steyr Engineering AG & Co.KG sowie WissenschaftlerInnen
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We3D
- /en/research-topics/wire-based-additive-manufacturing/projects/we3d
lly unlimited component size. At the LKR Leichtmetallkompetenzzentrum Ranshofen, both standard aluminium- and magnesium-based welding consumables as well as special process-designed wire-alloys developed [...] This means that large 3D components can be produced from new WAM-compatible welding wires made of aluminium and magnesium in a material and energy-saving, high-quality, cost-effective and time-efficient manner
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Space-Al-MMC
- /en/research-topics/wire-based-additive-manufacturing/projects/space-al-mmc
Space-Al-MMC Advancement of Aluminium Composites for Space and Earth Applications The aim of the project was to further develop gas pressure infiltration technology for fibre-reinforced metal matrix composites
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AZ91-PMD
- /en/research-topics/wire-based-additive-manufacturing/projects/az91-pmd
filler material were investigated and a comparison between the PMD components and the conventional aluminium components, which represent the current state of the art, was sought. The success of the project
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Novel hydrogen tanks as a contribution to decarbonising the transport sector
demonstrator component, a new type of hydrogen tank, is to be produced at the LKR using WAAM. Special aluminium and magnesium alloys developed at the LKR will be used.” Coordinated by Envirohemp, the project
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MAST3RBoost
- /en/research-topics/wire-based-additive-manufacturing/projects/mast3rboost
demonstrator component, a new type of hydrogen tank, is to be produced at the LKR using WAAM. Special aluminium and magnesium alloys developed at the LKR will be used. This project is funded in the topic HOR
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LKR: Successful completion of the Space-Al-MMC project
The aim of the FFG-funded project was to further develop gas pressure infiltration technology for fibre-reinforced metal matrix composites (MMC). This technology has already been researched at the LK
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