/prototyping
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The house would be printed in 31 sections using the largest 3D printer currently available, then transported by truck to the site and fitted together. Designed to cantilever out from a hillside, the structure of the house was generated using an algorithm that imitates bone growth to deposit material where it is needed along lines of stress, resulting in a fibrous web rather than a solid envelope.
The house would be printed in 31 sections using the largest 3D printer currently available, then transported by truck to the site and fitted together. Designed to cantilever out from a hillside, the structure of the house was generated using an algorithm that imitates bone growth to deposit material where it is needed along lines of stress, resulting in a fibrous web rather than a solid envelope.
The house would be printed in 31 sections using the largest 3D printer currently available, then transported by truck to the site and fitted together. Designed to cantilever out from a hillside, the structure of the house was generated using an algorithm that imitates bone growth to deposit material where it is needed along lines of stress, resulting in a fibrous web rather than a solid envelope.
Incredibly detailed physical 3D model of an arena in Stockholm
Incredibly detailed physical 3D model of an arena in Stockholm
Incredibly detailed physical 3D model of an arena in Stockholm
ADDITIVE MANUFACTURING 3D PRINT PHYSICAL MODEL EXCESSIVE II
ADDITIVE MANUFACTURING 3D PRINT PHYSICAL MODEL EXCESSIVE II
ADDITIVE MANUFACTURING 3D PRINT PHYSICAL MODEL EXCESSIVE II
The arrangement of 0.7mm radius fibres displays a range of flexible textures and the ability to produce in-built architectural elements, such as structure, furniture, stairs, and façade, all in one instance. Lightweight, high-resolution, optimised structures which, at life scale, are manageable truck-sized pieces that can be printed off site and later assembled on site.
The arrangement of 0.7mm radius fibres displays a range of flexible textures and the ability to produce in-built architectural elements, such as structure, furniture, stairs, and façade, all in one instance. Lightweight, high-resolution, optimised structures which, at life scale, are manageable truck-sized pieces that can be printed off site and later assembled on site.
The arrangement of 0.7mm radius fibres displays a range of flexible textures and the ability to produce in-built architectural elements, such as structure, furniture, stairs, and façade, all in one instance. Lightweight, high-resolution, optimised structures which, at life scale, are manageable truck-sized pieces that can be printed off site and later assembled on site.