Gramazio Kohler Research
Offene Stellen
Entwurf V-IX HS
MAS DFAB: #caschlatsch
Kernfach FS
Grundlagenfach HS/FS
Entwurf V-IX FS
Wahlfach FS
Entwurf V-IX HS
Wahlfach HS
Kernfach HS
Seminarwoche HS
Wahlfach FS
Vertiefung Fachwissen FS
Computational Design III-IV
Entwurf V-IX FS
Seminarwoche FS
Kernfach HS
Entwurf V-IX HS
Wahlfach HS
Seminarwoche HS
MAS DFAB: Eggshell Pavilion
Kernfach FS
Seminarwoche FS
Kernfach HS
Seminarwoche HS
Workshop USA
Kernfach FS
Kernfach HS
MAS DFAB: Rapid Clay Formations II
Kernfach FS
Seminarwoche FS20
MAS DFAB: Rapid Clay Formations I
Kernfach HS
Robotic Landscapes III
MAS DFAB: Up Sticks
Seminarwoche HS
Kernfach FS
Seminarwoche FS19
Kernfach HS
Entwurfsstudio HS
Rapid Clay Formations
Zero-Waste Geometry
Seminarwoche HS
ROB|ARCH Workshop
MAS DFAB: Gradual Assemblies
Kernfach FS
Robotic Landscapes I
Malleable Voxels
MAS DFAB: minijammed
Seminarwoche HS
MAS DFAB: Brick Labyrinth
MAS DFAB: Robotic Pavilion
Force-adaptive Wire Cutting
Spatial Extrusions 2
Spatial Extrusions
Graded Structures 2
Graded Structures
Robotic Wire Cutting Summerschool
Spatial Wire Cutting
Extruded Structures
Remote Material Deposition Installation
Remote Material Deposition
Depth Modulations 2
Design of Robotic Fabricated High Rises 2
Depth Modulations
Complex Timber Structures 2
Complex Timber Structures 1
Robotic Metal Aggregations
Shifted Frames 2
Design of Robotic Fabricated High Rises 1
Shifted Frames 1
Spatial Aggregations 2
Spatial Aggregations 1
Robotic Clay Molding
Die fragile Struktur 2
Die fragile Struktur 1
Prozedurale Landschaften 2
Prozedurale Landschaften 1
Seminar Week FS11
Die Verzahnung 2
Die Verzahnung 1
Das sequentielle Tragwerk 2
Das sequentielle Tragwerk 1
Explicit Bricks
Die programmierte Säule 2
Die programmierte Säule 1
Freilicht Theater
Voxels 2
Voxels 1
Die Wandöffnung 2
Die Wandöffnung 1
Die sequenzielle Wand 2
Die sequenzielle Wand 1
Der Schaum
Die fraktale Wand
Die aufgelöste Wand
Seminar Week
Die perforierte Wand 2
Die perforierte Wand 1
Die programmierte Wand
Das schiefe Loch

Malleable Voxels, Madrid, 2017
Robotics Atelier 2017 at the Norman Foster Foundation
The workshop Malleable Voxels explores the potential of robotically aggregating earthen materials by shooting clay projectiles from varying directions, suggesting an entirely new interpretation of existing 3D printing techniques. Due to the projectiles’ malleable nature, they deform through impact and create an interlocking bond with the existing structure. This workshop focuses on designing and fabricating formations of small-scale clay projectiles in model scale, which are informed by their orientation and compression.

The workshop is held at the Norman Foster Foundation in Madrid as part of the Robotics Atelier 2017. Ten students from universities and institutions from all over the globe are invited to develop creative ideas and concepts about the synthesis of computational design, material processes and robotic fabrication. With the urgent call for sustainability, we ask how untreated natural materials and advanced technology can be combined to arrive at new methods in construction that shape the future of architecture.

Gramazio Kohler Research, ETH Zurich

In Zusammenarbeit mit: Norman Foster Foundation
Mitarbeiter: Romana Rust (project lead), Selen Ercan, Hakim Hasan, David Jenny
Studenten: Vasilija Abramovic (The Bartlett School of Architecture, University College London, UK), Serban Bodea (Institute for Computational Design and Construction, Stuttgart, Germany), Adrián Carrio (Universidad Politécnica de Madrid, Madrid, Spain), Hareesh Godaba (National University of Singapore, Singapore), Prakhar Jain (Indian Institute of Technology, Mumbai, India), Steven Keating (Massachusetts Institute of Technology, MA, USA), Luz Martínez Ramírez (Universidad Iberoamericana de Ciencias y Tecnología, Santiago, Chile), Brenda Mboya (Ashesi University, Accra, Ghana), Parascho Stefana (Swiss Federal Institute of Technology, Zurich, Switzerland), Ricardo Valbuena (Institute for Advanced Architecture of Catalonia, Barcelona, Spain)
Sponsoring: Rolex Institute

Copyright 2024, Gramazio Kohler Research, ETH Zurich, Switzerland
Gramazio Kohler Research
Professur für Architektur und Digitale Fabrikation
ETH Zürich HIB E 43
Stefano-Franscini Platz 1 / CH-8093 Zürich

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