printing your future     

The base of the house would be unpacked from a modular tube and an inflatable dome would fold up over it. Layers of lunar soil, known as regolith, would then be built up around the frame using a robot-operated D-Shape printer, creating a lightweight foam-like formation that is derived from biological structures commonly found in nature. 1

The base of the house would be unpacked from a modular tube and an inflatable dome would fold up over it. Layers of lunar soil, known as regolith, would then be built up around the frame using a robot-operated D-Shape printer, creating a lightweight foam-like formation that is derived from biological structures commonly found in nature. 2

The base of the house would be unpacked from a modular tube and an inflatable dome would fold up over it. Layers of lunar soil, known as regolith, would then be built up around the frame using a robot-operated D-Shape printer, creating a lightweight foam-like formation that is derived from biological structures commonly found in nature. 3

The shape was first modelled using 3D tiling software and optimised by removing material where it wasn't structurally essential, before the resulting form was broken down into a high-resolution array of three dimensional pixels, or voxels. On show at an exhibition about the relationship between digital architecture and the sciences called Naturalising Architecture at the FRAC Centre in Orléans, France.

The shape was first modelled using 3D tiling software and optimised by removing material where it wasn't structurally essential, before the resulting form was broken down into a high-resolution array of three dimensional pixels, or voxels. On show at an exhibition about the relationship between digital architecture and the sciences called Naturalising Architecture at the FRAC Centre in Orléans, France.

The shape was first modelled using 3D tiling software and optimised by removing material where it wasn't structurally essential, before the resulting form was broken down into a high-resolution array of three dimensional pixels, or voxels. On show at an exhibition about the relationship between digital architecture and the sciences called Naturalising Architecture at the FRAC Centre in Orléans, France.

Generated using 3D-modelling software, the room will be constructed from grains of sand bonded together to create a new type of sandstone that's capable of achieving the intricate form. Inspired by the natural process of cell division, we develop an algorithm that iteratively divides and transforms the initial geometry of a simple cube.

Generated using 3D-modelling software, the room will be constructed from grains of sand bonded together to create a new type of sandstone that's capable of achieving the intricate form. Inspired by the natural process of cell division, we develop an algorithm that iteratively divides and transforms the initial geometry of a simple cube.

Generated using 3D-modelling software, the room will be constructed from grains of sand bonded together to create a new type of sandstone that's capable of achieving the intricate form. Inspired by the natural process of cell division, we develop an algorithm that iteratively divides and transforms the initial geometry of a simple cube.

The mechanised device collects dirt/sand on site and then sprays it from a nozzle in combination with a binder component. When this mixture hits the surface it solidifies to create sculptural forms. Because the movements of the robot are digitally controlled by computer, the designer has direct input on the resulting shape. Unlike other 3D printers, the Stone Spray robot can print multi-directionally, even on vertical surfaces.

The mechanised device collects dirt/sand on site and then sprays it from a nozzle in combination with a binder component. When this mixture hits the surface it solidifies to create sculptural forms. Because the movements of the robot are digitally controlled by computer, the designer has direct input on the resulting shape. Unlike other 3D printers, the Stone Spray robot can print multi-directionally, even on vertical surfaces.

The mechanised device collects dirt/sand on site and then sprays it from a nozzle in combination with a binder component. When this mixture hits the surface it solidifies to create sculptural forms. Because the movements of the robot are digitally controlled by computer, the designer has direct input on the resulting shape. Unlike other 3D printers, the Stone Spray robot can print multi-directionally, even on vertical surfaces.

Mycelium chair, which takes its name from the extensive threadlike root structure of fungi, combines organic matter with bioplastics to make a light and strong composite material that can be 3D-printed.

Mycelium chair, which takes its name from the extensive threadlike root structure of fungi, combines organic matter with bioplastics to make a light and strong composite material that can be 3D-printed.

Mycelium chair, which takes its name from the extensive threadlike root structure of fungi, combines organic matter with bioplastics to make a light and strong composite material that can be 3D-printed.