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

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Project duration: 2024-09-01 - 2027-08-31

Strategies for the material utilization of bark-damaged silver fir - Subproject 1

The aim of the WeiTaRi project is to determine the potential for economically and ecologically long-term material use of silver fir wood with bark damage. Bioökonomie und Holztechnologie Bioökonomie holzbasierte Bioökonomie Holztechnik Holzverarbeitung Nachhaltigkeit

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Project duration: 2024-09-01 - 2027-08-31

Interreg Alpine Space - Building circular in the alpine space

The Interreg project BAUHALPS promotes sustainable building in the Alpine region through Innovation, Culture and NEB values to develop climate-friendly standards for future construction. Bioökonomie und Holztechnologie Alpines Bauen Bauphysik Bautechnik energieeffiziente und klimaschutzkonforme Gebäudestandards Klimawandel nachhaltiges Bauen Nachhaltigkeit

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

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Project duration: 2024-01-01 - 2027-12-31

Climate-resilient bioeconomy in the value-added cycle of wood and other renewable raw materials

The Rosenheim Technical University of Applied Sciences is researching the material use of climate-resilient wood and biomass. The focus here is on the processing of new types of wood and waste wood as well as the recycling of the products obtained from them and their recyclability using digital methods and AI. Bioökonomie und Holztechnologie Holztechnik Kreislaufwirtschaft Nachhaltigkeit

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

Danubians Cradle-to-Cradle Architecture and construction processes

DECORATOR promotes the transformation of the construction sector towards a circular economy in the Danube region. This combines ecological, technical, social and economic aspects. Bioökonomie und Holztechnologie Bauen Bautechnik Bioökonomie Holztechnologie Kreislaufwirtschaft nachhaltiges Bauen Nachhaltigkeit Planen und Energie

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Project duration: 2024-01-01 - 2025-05-31

DBU_reversible wood-concrete composite ceilings

In this project, an attempt is being made to create a new type of bond between wood and concrete that requires few or no screw connections. Bioökonomie und Holztechnologie Bauen, Planen und Energie Bioökonomie Holz-Beton Verbunddecken Holztechnik Holztechnologie

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Project duration: 2023-12-01 - 2025-01-31

Development of a wooden traffic sign bridge TTS - Bridge

Within the scope of the project a traffic sign bridge made of wood is being constructed. Of particular of particular importance is the development of suitable monitoring and monitoring systems to record the load-bearing behavior. Furthermore, the the location of the traffic sign gantry, in the directly weathered outdoor area and with high high de-icing salt ingress, special attention must be paid to structural wood protection with the appropriate choice to pay particular attention to the wood species used. Bioökonomie und Holztechnologie Bauen Bautechnik Planen und Energie

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Project duration: 2023-06-01 - 2024-07-31

Charakterisierung, Modellierung und Abstraktion der Wirkungsprinzipien bionisch optimierter Strukturen in Form einer Stamm-Astanbindung

Bioökonomie und Holztechnologie Künstliche Intelligenz Machine Learning Möbelbau Vollholznutzung

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Project duration: 2023-06-01 - 2023-12-31

Biopolymers from renewable raw materials

Research into the use of food waste and algae for environmentally friendly and efficient bioplastics production, waste minimization and climate mitigation Bioökonomie und Holztechnologie Bioökonomie Kunststoff Kunststofftechnik Produkte und Produktion Werkstofftechnik

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