Focus Area Project: Project A 05
Project A 05
Interaction of reinforcement, process, and form in Digital Fabrication with Concrete
2024|H. Kloft, B. Sawicki, F. Bos, R. Dörrie, N. Freund, S. Gantner, L. Gebhard, N. Hack, E. Ivaniuk, J. Kruger, W. Kaufmann: Interaction of reinforcement, process, and form in Digital…Digital fabrication with concrete beyond horizontal planar layers
2024|D. Lowke, A. Anton, R. Buswell, S.E. Jenny, R. J. Flatt, E.L. Fritschi, N. Hack, I. Mai, M. Popescu, H. Kloft: Digital fabrication with concrete beyond horizontal planar layers, Cement…
M. Sc. Stefan Gantner
investigates fibre reinforcement strategies as doctoral researcher. In collaboration with project partners he develops techniques for processing fibres to obtain suitable reinforcement structures for different AM methods. Beyond conception his work scope ranges from deriving representative part designs to physical testing including prototyping of toolings.Characterisation of the alkaline resistance of fibre reinforcement strands produced in a dynamic fibre winding process for 3D concrete printing
2024 | T. Rothe,S. Gantner, N. Hack, C. Hühne: Characterisation of the alkaline resistance of fibre reinforcement strands produced in a dynamic fibre winding process for 3D concrete printing Proceedings of…
Prof. Dr. sc. ETH Zurich Dipl. Ing. M.A. AA Norman Hack
is supervising ITE`s requested doctoral researcher during all phases of the research. Additionally, he is actively involved in the conceptual phase, developing reinforcement concepts for the different AM methods.
Prof. Dr.-Ing. Christian Hühne
leads the iAF scientific staff in the development and construction of the winding head, the manufacturing process of the reinforcement from FRP with different curing resins, and in questions of the damage of the FRP by the shotcreting process.A Dynamic Winding Process of Individualized Fibre Reinforcement Structures for Additive Manufacturing in Construction
2023 | T. Rothe, S. Gantner, N. Hack, C. Hühne: A Dynamic Winding Process of Individualized Fibre Reinforcement Structures for Additive Manufacturing in Construction. Open Conference Proceedings (2023)
