ELYTRA FILAMENT PAVILION: ROBOTIC FILAMENT WINDING FOR STRUCTURAL COMPOSITE BUILDING SYSTEMS

ELYTRA FILAMENT PAVILION: ROBOTIC FILAMENT WINDING FOR STRUCTURAL COMPOSITE BUILDING SYSTEMS

Ongoing research conducted at the University of Stuttgart is focused on material-efficient construction through the development of novel design and fabrication strategies for fibre composite lightweight construction systems. In a long-term, bottom-up development across multiple demonstrator projects...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: MARSHALL PRADO, MORITZ DÖRSTELMANN, ACHIM MENGES, JAMES SOLLY, JAN KNIPPERS
Format: Buchkapitel
Sprache:eng
Schlagworte:
Applied arts
Applied sciences
Architectural control
Architectural design
Architecture
Arts
Buildings
Composite materials
Design
Development studies
Engineering
Fiber composites
Industrial engineering
Manufacturing
Manufacturing engineering
Materials
Materials science
Robotics
Social sciences
Structural design
Structural engineering
Urban development
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Beschreibung
Zusammenfassung:Ongoing research conducted at the University of Stuttgart is focused on material-efficient construction through the development of novel design and fabrication strategies for fibre composite lightweight construction systems. In a long-term, bottom-up development across multiple demonstrator projects, the underlying structural principles of fibrous lightweight structures in nature have been investigated in interdisciplinary collaboration with biologists, leading to the development of building technological advancements which allow the transfer of biological lightweight construction principles into technical fibre composite structures (Menges, 2015, Dörstelmann, 2015a, Van de Kamp, 2015). A series of prototypical demonstrator projects have showcased a higher degree of material efficiency and