'biomic wall' fuses ceramic 3D printing & ecological design for self-regulating greening facade

'biomic wall' fuses ceramic 3D printing & ecological design for self-regulating greening facade

biomic wall: a digitally fabricated greening facade

 

Intertwining architecture and nature, Biomic Wall is a facade prototype that combines novel ceramic 3D printing with ecological design principles. The hydroponic wall has been developed as part of a master’s program at the University of Innsbruck in collaboration with ceraLAB and exparch.hochabu, to dynamically respond to our ever-evolving environmental landscape. Particularly, it seeks to contribute to the greening of dense urban spaces in order improve air quality, regulate the urban climate, and attenuate noise, while becoming a habitat for a variety of flora and fauna.

biomic wall fuses ceramic 3D printing & ecological design for self-regulating greening facade
Biomic Wall explores the potential of transforming urban spaces | all images courtesy of the author

 

 

intertwining architecture and nature

 

This architectural prototype challenges the boundaries of architecture within the context of ecology, calling for a contemplation of its role as a space for cultural and biodiverse reproduction. At its core, the Biomic Wall project seeks to construct an architectural biome that responds to our current environmental context, fostering a symbiotic relationship between the built environment and nature realm. 

 

The design team at University of Innsbruck, ceraLAB, and exparch.hochabu utilized 3D printing to allow for the formation of intricate and organic forms previously unattainable through traditional construction methods. This is expressed through Biomic Wall’s porous surface and aesthetic articulation.

biomic wall fuses ceramic 3D printing & ecological design for self-regulating greening facade
the porosity and deepening of the wall allow the greening of the ceramic

biomic wall fuses ceramic 3D printing & ecological design for self-regulating greening facade
the organically designed ceramics interweave symbiotically with the greenery

biomic wall fuses ceramic 3D printing & ecological design for self-regulating greening facade
ceramic surfaces that transition from solid to porous

biomic-wall-university-innsbruck-ceralab-exparch-hochbau-designboom-1

biomic wall fuses ceramic 3D printing & ecological design for self-regulating greening facade
the bricks were produced with a 4mm nozzle and a resolution of 2mm

biomic wall fuses ceramic 3D printing & ecological design for self-regulating greening facade
all bricks for greening after the first firing

biomic wall fuses ceramic 3D printing & ecological design for self-regulating greening facade
the prototype was glazed with an underglaze and spray glaze

biomic wall fuses ceramic 3D printing & ecological design for self-regulating greening facade
the metal substructure enabled the assembly row by row

 

 

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in detail, it becomes visible how overlaps and niches for flora and fauna form a biome
in detail, it becomes visible how overlaps and niches for flora and fauna form a biome
all bricks were biscuit fired before glazing
all bricks were biscuit fired before glazing
digitally designed bricks optimized and prepared for 3D printing
digitally designed bricks optimized and prepared for 3D printing

project info:

 

name: Biomic Wall
designer: University of Innsbruck, exparch.hochbau, ceraLAB

 

 

designboom has received this project from our DIY submissions feature, where we welcome our readers to submit their own work for publication. see more project submissions from our readers here.

 

edited by: ravail khan | designboom

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