INTERREG: S3HubsinCE

There is a high potential for transnational cooperation in central Europe to promote the bottom-up implementation of smart specialisation strategies (RIS3). But much of it remains unexploited. The S3HubsinCE project unleashes this potential by generating new transnational support structures. These will be based on connected “Digital Innovation Hubs” (DIH), creating stronger links between relevant stakeholders in the key technology priority areas, including advanced manufacturing and materials, ICT, nanotech, as well as biotech and medical devices.

Opis projekta:

The project partnership will develop an innovation network of “RIS3 Champions” of central Europe. It will initiate a new generation of innovation networks, create a comprehensive “Digital Integration Toolkit” to enhance cooperation between partners from relevant institutions as well as develop joint strategies and action plans. The project will help relevant actors to better understand RIS3 needs and the role they play in their implementation. Moreover, it will create a novel method to design, manage and introduce innovation in the frame of smart specialisation strategies, applicable beyond participating regions.

 

TECOS's role:

TECOS will provide the implementation of developed technologies, knowledge and transnational policies into practice with designing an investment forum for providing SMEs with an entry point for obtaining financing for the digitalization of their business and acquiring all the necessary skills for establishing a functioning digital production.

 

Contact: Tomaž Sitar

 

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  • Project status: Running
  • Duration: 1. 10. 2018 - 30. 9. 2021
  • Programme: INTERREG CENTRAL EUROPE
  • Coordinator: Carinthia University of Applied Sciences
  • Other partners: Forschung Burgenland, bwcon GmbH, Fraunhofer IWU, Intellimech, ECIPA Nordest, Service and Training Agency of CNA, Krakow Technology Park, TECOS, Pannon Business Network, Croatian Chamber of Economy, KWF Kärntner Wirtschaftsförderungs Fonds, Regionalmanagement Burgenland, Wirtschaftsförderung Stuttgart, Saxon State Ministry of Economic Affairs, Labour & Transport, AFIL Associazione Fabbrica Intelligente Lombardia, Region of Veneto, Malopolska Region, Government Office for Development and European Cohesion Policy, IFKA Public Benefit Non Profit Ltd. for the Development of the Industry, National Ministry of Economy, Entrepreneurship and Craft (HR)


  • Project status
    Running
  • Duration
    1. 10. 2018 - 30. 9. 2021
  • Programme
    INTERREG CENTRAL EUROPE
  • Coordinator
    Carinthia University of Applied Sciences
  • Other partners
    Forschung Burgenland, bwcon GmbH, Fraunhofer IWU, Intellimech, ECIPA Nordest, Service and Training Agency of CNA, Krakow Technology Park, TECOS, Pannon Business Network, Croatian Chamber of Economy, KWF Kärntner Wirtschaftsförderungs Fonds, Regionalmanagement Burgenland, Wirtschaftsförderung Stuttgart, Saxon State Ministry of Economic Affairs, Labour & Transport, AFIL Associazione Fabbrica Intelligente Lombardia, Region of Veneto, Malopolska Region, Government Office for Development and European Cohesion Policy, IFKA Public Benefit Non Profit Ltd. for the Development of the Industry, National Ministry of Economy, Entrepreneurship and Craft (HR)


Why choose TECOS?

  • Vast Experience
  • Highly Trained Staff
  • Short Response Time
  • One Contact For All Your Problems
  • State-of-the-art Equipment

Sample Project

Quickly to precise 3D model of a mill for manufacturing of replacement parts

Quickly to precise 3D model of a mill for manufacturing of replacement parts

The client had to renew a wore down rotor with knife segments for which they didn't have any documentation. With precise 3D scanning of the original and creation of functional CAD model we provided them with data for production of replacement.

Thermoplastic oil filter housing warpage prediction due to injection moulding

Thermoplastic oil filter housing warpage prediction due to injection moulding

The customer has presumed problems with excessive warpage in the stage of tool design. The material is PA66 with 30% of glass fibers. With the help of advanced injection moulding analysis we predicted the trend and values of warpage and thus successfully eliminated the problems.

Analysis of Deep Drawing Process

Analysis of Deep Drawing Process

Our client has planned a single phase deep drawing process for the presented case, however several doubts about manufacturability arose. The conducted analysis has cleared all doubts.

With Autodesk Advanced Material Exchange and Abaqus to precise results of structural FEM for fiber reinforced materials

With Autodesk Advanced Material Exchange and Abaqus to precise results of structural FEM for fiber reinforced materials

We made a comparative study between experimentaly and numerically determined strength of a fibre reinforced product, which yielded extremely good match of the results from both methods.

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