P-00408-No-020_rt
Accompanying notes provided By V&A Mueseum, London. Copyright the V&A Museum.
ELYTRA, Filament Pavilion
18 May - 6 November, 2016
Elytra is a responsive shelter. A robot will build new components of the structure on the site, allowing the canopy to grow over the course of the V&A Engineering Season. Your presnce in the pavilion today will be captured by sensors in the canopy and ultimately will affect how and where the structure grows.
The pavilion tests a possible future for architectural and engineering design, exploring how new robotics technologies might transform how buildings are designed and built. The design draws on research into lighhtweight construction principles found in nature. It is inspired by the filament structures of the shells of flying beetles, know as elytra.
Made of glass and carbon fibre, each component is produced using robotic winding technique developed by the designers. Unlike other fabrication methods, this does not require moulds and can produce an infinite variety of spun shapes, while reducing wate to a minimum. This unique method of fabrication integrates the process of design and making.
Like beetle elytra, the structure is both strong and very light. The pavilion's entire filament stutcure weighs less than 2.5 tonnes - equivalent to 1.4 by 1.4 m squared prortion of the V&A's wall around you.
Part of the V&A Engineering Season.
P-00408-No-020_rt
Accompanying notes provided By V&A Mueseum, London. Copyright the V&A Museum.
ELYTRA, Filament Pavilion
18 May - 6 November, 2016
Elytra is a responsive shelter. A robot will build new components of the structure on the site, allowing the canopy to grow over the course of the V&A Engineering Season. Your presnce in the pavilion today will be captured by sensors in the canopy and ultimately will affect how and where the structure grows.
The pavilion tests a possible future for architectural and engineering design, exploring how new robotics technologies might transform how buildings are designed and built. The design draws on research into lighhtweight construction principles found in nature. It is inspired by the filament structures of the shells of flying beetles, know as elytra.
Made of glass and carbon fibre, each component is produced using robotic winding technique developed by the designers. Unlike other fabrication methods, this does not require moulds and can produce an infinite variety of spun shapes, while reducing wate to a minimum. This unique method of fabrication integrates the process of design and making.
Like beetle elytra, the structure is both strong and very light. The pavilion's entire filament stutcure weighs less than 2.5 tonnes - equivalent to 1.4 by 1.4 m squared prortion of the V&A's wall around you.
Part of the V&A Engineering Season.