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Här visas pågående och avslutade forskningsprojekt på Högskolan Väst. Projekten är listade i bokstavsordning.
The Adopt project proposes to exploit the recent progresses of the deformable mirror (DM) technology enabling to adapt in real time - on a millisecond time-scale - the shape and/or the beam energy distribution of a high-power laser beam (LB) to achieve the ambitious goal of increasing the robustness of LB welding and LB additive manufacturing.
Project title: Lean Exterior Brazing -II (LEX-B)
Additive manufacturing (AM) is considered to be an example of digitalization in manufacturing as it enables production of a physical component from a digital model.
Projektet föreslår DIPy-AI, en agil AI-arkitektur baserad på pyramiden data-knowledge-information-wishdom (DIKW) för bearbetning av sensordata i produktionsmiljöer. Det syftar till att ta itu med utmaningar relaterade till dataassimilering, kvalitetsdetektering och modulär informationsextraktion.
The goal of this research project is to develop a flexible tool-box for welding industry to be able to arrive at certified weld quality.
Syftet är att demonstrera följande: -Ny lättviktsteknologi i fullskaliga motorprov -Automatiserad produktionsteknik
The industrialisation of Manufacturing (AM) requires a holistic data management and integrated automation. INTEGRADDE aims to develop an endto-end Digital Manufacturing solution, enabling a cybersecured bidirectional dataflow for a seamless integration across the entire AM chain.
This project aims to increase the use of aluminum alloys using innovative laser welding tools, as well as to significantly reduce the costly pre-tests in the welding of alloys in the production development phase.
The project aims to contribute to the goal of flexible manufacturing processes through demonstration of innovative laser welding solutions.
Utveckling av additiv tillverkning med laser och tråd för tillverkning av högpresterande komponenter Additive manufacturing (AM) is acknowledged to afford wide ranging benefits, such as unprecedented freedom in geometric complexity, new design flexibility, dramatic reduction in processing time & cost, minimal material wastage, reduced energy use, shorter time to market.
The project aims at increase the flexibility for low series production, facilitate introduction of new products or new materials in robotized laser beam welding as well as securing a high and consistent weld quality.
It is necessary to reduce the fuel consumption in aviation in order to reach the climate goals. This research project aims to develop lighter aircraft engines as part of this effort.