The project, named Gaia House, aims to establish a template for mass-produced biodegradable and structurally efficient structures.
The building rises from a circular concrete foundation, relying on a team-developed computational design to reduce the total quantity of materials while imprinting geometric variation across the facade.
For the fabrication of the residential prototype, WASP used a 3D printer suspended from a crane, aptly titled Crane WASP.
The mixture, composed of 25 percent soil, 40 percent chopped rice straw, 25 percent rice husk, and 10 percent hydraulic lime, was dispensed onto successive layers with a series of triangular cavities placed between the primary interior and exterior courses.
Rise husks were poured into the cavities to insulate the structure.
Although the biodegradable material is suitable for use as an enclosure system, the principal load-bearing elements for the overhanging octagonal roof are wooden columns placed along the interior of the structure.
For the interior of the structure, WASP softened the rustic materials by treating them with clay lamina and linseed oils.
“Gaia is a highly performing module both in terms of energy and indoor health, with almost zero environmental impact,” said the design team.
“Printed in a few weeks, thanks to its masonry it does not need heating or an air conditioning system, as it maintains a mild and comfortable temperature both in winter and in summer.”
Currently, WASP is collaborating with the Institute for Advanced Architecture of Catalonia to develop a 3D-printed earthen wall with embedded floor and staircase systems, and is seeking to reduce construction time via the use of multiple printers working in tandem with each other.
This article was published on archpaper.com