We use our own cookies and third parties ones to offer our services and collect statistical data. If you continue browsing the internet you accept them. More information

Accept
OTF: 3D Printing Architecture
OTF: 3D Printing Architecture

Although not considered highly valued nowadays, earth has always been one of the most widely used building materials. Currently, a third of the world population lives in earthen buildings, both for its intrinsic properties – absorption of heat and humidity – and for its natural characteristics – the earth is present everywhere, it does not need energy to become a building material and it is entirely recyclable.

3D printing, as a new construction technique, potentially puts earth in the foreground. 3D printing allows a high degree of formal freedom when designing, integrating structural and climatic criteria. Thanks to robotics, on-site construction can be achieved with 0-km materials, an agile process of excavation and extraction of earth, which is subsequently filtered, mixed with natural additives and extruded as a wall or other architectural elements. Digital media facilitate the approach between the design and construction processes, supporting the building phase with computational processes, such as modelling, the production of print codes, and the mapping of soil composition and humidity, which open up new opportunities for performative architecture. Analyzing the geography and orientation of the plots allows defining the climatic needs of the facades, which can be integrated by means of the parametric modelling on walls or ceilings. A freedom that leads us to a type of architecture that adapts to each place, culture and user; that integrates material and process, valuing local crafts and construction means, cooperating with communities in both the design
and construction of the house. A future where we will live together in harmony with the land and the different cultures.

OTF: 3D Printing Architecture
OTF: 3D Printing Architecture

 Barcelona, Spain
(development)
2013-2020

 

Project team / IAAC Consultant and Staff
Sofoklis Gianakopoulos-Pylos research project
Areti Markopoulou,
Enrico Dini, 
Cristina Rueda, 
Rodrigo Aguirre,
Djordje Stanojevic, 
Marco Ingrassia, 
Angelos Chronis,
Manja van de Worp, 
Ángel Muñoz, 
Aldo Sollazzo, 
Raimund Krenmueller, 
Joaquim Melchor, 
Josep Ramon Sole, 
Gloria Font, 
Sebastián Moreno, 
Eugenio Bettucchi, 
Sheikh Riaz, Armin Akbari, 
Ya-Chieh Chang, 
Eduardo Chamorro, 
Elisabetta Carnavale, 
Quentin Beliard 
IAAC Students
Sameera Chukkapalli,
Sameera Chukkapalli,
 Iason Giraud, 
Abdullah Ibrahim,
Chenthur Raaghav,
Lidia Ratoi,
Lili Tayefi, 
Tanuj Thomas, 
Ya-Chieh Chang, 
Daniele Fiore, 
Filipp Sevostianov, 
Gelder van Limburg Stirum, 
Quan li, 
Sheikh Rizvi Riaz, 
Dongliang Ye, 
Ozgur Cengiz, 
Yuchen Chen, 
Ipsita Datta, 
Yingxin Du, 
Ashkan Foroughi, 
Pavlina Kriki, 
Yi Fan Liao, 
Bhakti Vinod Loonawat, 
Shahram C. 
Randeria, Payam Salehi Nejad,
Nusrat Tabassum, 
Jinw-Wen,
Chiou,
Mohamad Fouad Nader Hanifa, 
Jae Shin, 
Nzar Faiq Abdulla Naqeshbandi, 
Angelika Bocian,
Christopher Bierach 
Sponsors
D-shape, 
Ceramica Cumella, 
Tecnalia, 
Noumena, 
Wasp, 
UN-Habitat, 
Windmill, 
La Salle and Rice House
Photographs
2017 - OTF 3D printing with industrial robot © IAAC
2018 - OTF Proposal - Kakuma © IAAC

OTF: 3D Printing Architecture

IAAC
Alexandre Dubor Edouard Cabay Kunaljit Chadha Mathilde Marengo