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RotoColumn

Mehdizadeh, Samim ; Zimmermann, Adrian ; Tessmann, Oliver
eds.: Gengnagel, Christoph ; Baverel, Olivier ; Betti, Giovanni ; Popescu, Mariana ; Ramsgard Thomsen, Mette ; Wurm, Jab (2022)
RotoColumn.
Design Modeling Symposium Berlin. Berlin (26.-28.9.2022)
doi: 10.1007/978-3-031-13249-0_38
Conference or Workshop Item, Bibliographie

Abstract

The research project RotoColumn aims to produce hollow, vertical concrete elements in various shapes as self-carrying permanent formwork for loadbearing concrete elements. The work is motivated by the urgent need to improve how we build with concrete. The project conceives the digital design simulation, robotic fabrication technologies, and advances in concrete rheology as the drivers for improvements in state of the art in construction industry. This paper unfolds the sequencing of individual methods as a part of the larger research goal, described through the digital simulations and different series of large-scale physical prototypes, in collaboration with the Industry partner. The project RotoColumn is a part of the research trajectory Rotoform, a dynamic robotic casting method for manufacturing hollow concrete building elements.

Item Type: Conference or Workshop Item
Erschienen: 2022
Editors: Gengnagel, Christoph ; Baverel, Olivier ; Betti, Giovanni ; Popescu, Mariana ; Ramsgard Thomsen, Mette ; Wurm, Jab
Creators: Mehdizadeh, Samim ; Zimmermann, Adrian ; Tessmann, Oliver
Type of entry: Bibliographie
Title: RotoColumn
Language: English
Date: 18 September 2022
Place of Publication: Berlin
Publisher: Springer, Cham
Book Title: Towards Radical Regeneration
Event Title: Design Modeling Symposium Berlin
Event Location: Berlin
Event Dates: 26.-28.9.2022
DOI: 10.1007/978-3-031-13249-0_38
Abstract:

The research project RotoColumn aims to produce hollow, vertical concrete elements in various shapes as self-carrying permanent formwork for loadbearing concrete elements. The work is motivated by the urgent need to improve how we build with concrete. The project conceives the digital design simulation, robotic fabrication technologies, and advances in concrete rheology as the drivers for improvements in state of the art in construction industry. This paper unfolds the sequencing of individual methods as a part of the larger research goal, described through the digital simulations and different series of large-scale physical prototypes, in collaboration with the Industry partner. The project RotoColumn is a part of the research trajectory Rotoform, a dynamic robotic casting method for manufacturing hollow concrete building elements.

Divisions: 15 Department of Architecture
15 Department of Architecture > Fachgruppe B: Gestalten und Darstellen
15 Department of Architecture > Fachgruppe B: Gestalten und Darstellen > Digital Design
Date Deposited: 12 Dec 2022 08:57
Last Modified: 12 Dec 2022 08:57
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