Project duration: 2025-04-01 - 2027-03-31

Development of energy- and resource-efficient circular sawing technology with innovative cutting technology to reduce cutting performance and adhesive wear

The energy input when cutting wood is influenced by cutting force and cutting edge wear. The aim is to achieve efficient circular sawing technology to reduce friction and adhesive wear.

Prozess- und Verfahrenstechnik Bioökonomie Bioökonomie und Holztechnologie Holztechnik Holztechnologie Nachhaltigkeit Produktionstechnik Ressourceneffizienz

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Project duration: 2025-01-01 - 2027-12-31

Simulation and validation of (surface) quality characteristics of large-area lightweight components in injection molding with gas-loaded plastic melts

The aim of the project is to reduce the energy consumption in the thermoplastic foam injection molding by replacing energy-intensive variothermy with the use of novel coating strategies.

Prozess- und Verfahrenstechnik Energieeffizienz Produkte und Produktion Produktionstechnik Prozesstechnik Spritzguss Spritzgussverfahren Werkstofftechnik Werkstofftechnik und Materialwissenschaft

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Project duration: 2024-09-01 - 2026-08-31

kAeMu - Qualification of employees in Bavarian small and medium-sized enterprises with regard to additive manufacturing

By establishing and consolidating a network for additive manufacturing, employees in Bavaria are to receive further training.

Prozess- und Verfahrenstechnik 3D Druck Additive Fertigung digitale Technologien Digitale Transformation Produkte und Produktion Prozesstechnik Werkstofftechnik Werkstofftechnik und Materialwissenschaft

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Project duration: 2024-04-01 - 2026-06-30

Investigation of powder-bed-based melting of injection mold inserts with a focus on innovative cooling geometries, new simulation approaches and novel post-processing methods for the targeted adjustment of molded part properties in optical injection molding

The aim of the project is to investigate the powder-bed-based melting of injection mold inserts with a focus on innovative cooling channel geometries, simulation approaches and post-processing methods for adjusting molded part properties.

Prozess- und Verfahrenstechnik Produkte und Produktion Prozesstechnik Werkstofftechnik Werkstofftechnik und Materialwissenschaft

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Project duration: 2024-03-01 - 2029-02-28

Process and system technology for the multifunctional impregnation of flat semi-finished fiber products made from renewable raw materials

Rosenheim University of Applied Sciences is planning a process technology for the CO2-neutral production of semi-finished fiber products from renewable raw materials. The aim is to optimize the production chain for sustainable lightweight construction, whereby gaps to conventional reinforcing fibres are to be closed.

Prozess- und Verfahrenstechnik Bioökonomie und Holztechnologie Produkte und Produktion Werkstofftechnik und Materialwissenschaft

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Project duration: 2019-02-01 - 2020-12-31

ODIP FLIM: Automatische Erkennung von Kunststoffen durch Fluoreszenz

Prozess- und Verfahrenstechnik Fluoreszenzmesstechnik Produkte und Produktion

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