The installation Concrete Choreography presents the first robotically 3D printed concrete stage, consisting of columns fabricated without formwork and printed in full height within 2.5 hours. Robotic concrete printing allows customized fabrication of complex components that uses concrete more efficiently. In collaboration with the Origen Festival in Riom, Switzerland, the installation consists of 9, 2.7m columns, individually designed with custom software and fabricated with a new robotic concrete 3D printing process developed at ETH Zurich. Students of the Master of Advanced Studies in Digital Fabrication and Architecture explore the unique possibilities of 3D printing with an age-old material, demonstrating the potential of computational design and digital fabrication for future construction. This novel fabrication process allows the production of concrete elements without the need for any formwork. In addition, one-of-a-kind designs with complex geometries can be fabricated in a fully automated manner. Hollow concrete structures are printed in a way where the material can be strategically used only where needed, allowing a more sustainable approach to concrete architecture. Computationally designed material ornament and surface texture exemplify the versatility and significant aesthetic potential of 3D concrete printing when used in large-scale structures. Framing and informing the dance performances of the summer season in Riom, the project demonstrates how technological advancements can bring efficient and novel expressions to concrete architecture.
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