Finished Projects

  1. Project 1

    Modelling of components made of rolled and annealed aluminum sheets with particular properties for the automotive industry

    The project topic covers the display of the entire process chain for the production of rolled sheet material from aluminium through simulation models and thus it shall enable to pursue simultaneously chosen properties.

  2. Project 2

    Microstructure Modelling in Forming Processes

    The project topic includes the modelling of the microstructure at forming processes; by means of numeric simulation models the layout of new as well as the optimisation of already existing process chains shall be enabled. The target is to be able to predict important product properties, especially regarding microstructure resp. grain size distribution.

  3. Project 4

    Melt Cleanliness

    Increasing requirements on rolled products and casting components from aluminium can only be met through continuous material development and qualitatively most significant products. Materials, poor in non-metallic impurities and showing sound, homogeneous surfaces, accomplish significantly better mechanical properties and even with cyclic load lead to a longer lifetime and optimised strength

  4. Project 5

    Sustainable Recycling Concept: Efficient Melting

    In the last years an increasing trend for the optimisation of technological processes regarding energy efficiency and environmental sustainability could be noticed. Within this research cluster the optimisation of the recycling process of aluminium is investigated. One of the main targets is the development of a model for the aluminium recycling process. Among others it shall contain the mapping of liquid and gas reactions as well as the fluid dynamics and thermal conditions in the recycling process.

  5. Project 6

    Hot Distortion of Sand Cores during Casting

    The dimensional stability of castings is essentially influenced by the distortion of the laid sand cores during casting. This up to now only little considered part of the casting process becomes more important, especially through the increase of inorganic binder systems and the process conversion caused by this. Therefore the targets of the project are to understand and – via simulation - predict especially the distortion of sand cores and the distortion-relevant essential variables for the dimensional stability of the component.

  6. Project 7

    Ultra High Strength Aluminium Alloys for the Automotive Large-Scale Production

  7. Project 8

    “INTERaCT” - Intergranular Corrosion Testing of 6xxx‐Aluminum Alloys

    The present project aims on the methodical investigation of the suitability of existing testing methods for determining the IGC susceptibility of 6xxx aluminum alloys. The investigations focus on the comparison of accelerated corrosion experiments and in-service corrosion tests. Finally, the results of this project will provide all necessary requirements in order to design a new, robust, reliable and realistic IGC testing method.

  8. Project 9

    Heat treatment of Cast Alloys and prediction of final properties

    Detailed knowledge of the heat treatment process of aluminum castings has the potential to lower the energy consumption during heat treatment, take full advantage of the material’s potential and increase the competitiveness of the casting industry in general.

  9. Project 10

    Design and process development of hollow structural HPDC components incl. joining investigations

    • Substitution of welded steel sheet components e.g. torque box

    • Adopt casting to Joining Technology/  Develop appropriate joining technology 

    • Casting process development (HPDC) of hollow structural component using lost cores

    • Design of weight reduced Al-component (casting)

  10. Project 21

    Online Topography Measurement of Aluminium during Cold-Rolling

    Further processing of cold-rolled metal sheets requires a homogeneous 3D distribution of the roughness parameters mostly. The only possibility to react on the rolled surface changes immediately, for instance by strip tension, is an online roughness measurement. But the roughness measurement is a challenge. This is primary based on the non isotropically reflecting aluminium surface and the oscillating strip in an lubricant mist environment.