Classification of building systems for concrete 3D printing
Article dans une revue avec comité de lecture
Date
2017Journal
Automation in ConstructionAbstract
In the present paper, a study is conducted on building systems associated with concrete extrusion-based additive manufacturing techniques. Specific parameters are highlighted - concerning scale, environment, support, and assembly strategies - and a classification method is introduced. The objective is to explicitly characterise construction systems based on such printing processes. A cartography of the different approaches and subsequent robotic complexity is proposed. The state of the art gathered from the literature is mapped thanks to this classification. It appears that the disruption potential brought by concrete 3D printing has not been fully embraced yet.
Files in this item
Related items
Showing items related by title, author, creator and subject.
-
Chapitre d'ouvrage scientifiqueDUBALLET, Romain; BAVEREL, Olivier; DIRRENBERGER, Justin (Springer, 2018)This work focuses on the design of ultra-light concrete walls for individual or collective housing, the normative context being constrained masonry. It is stated that current block work building is very inefficient in terms ...
-
Article dans une revue avec comité de lectureDUBALLET, Romain; BAVEREL, Olivier; DIRRENBERGER, Justin (Institution of Structural Engineers - Elsevier, 2019)This work presents a generalized method for robotic mortar extrusion, allowing the fabrication of structural-insulating walls of novel performances. It involves two distinct steps that are to be simultaneously automated: ...
-
Article dans une revue avec comité de lectureGOSSELIN, Clément; DUBALLET, Romain; ROUX, Philippe; GAUDILLIÈRE, Nadja; DIRRENBERGER, Justin; MOREL, Philippe (Elsevier, 2016)In the present paper a new additive manufacturing processing route is introduced for ultra-high performance concrete. Interdisciplinary work involving materials science, computation, robotics, architecture and design ...
-
Chapitre d'ouvrage scientifiqueGAUDILLIÈRE, Nadja; DUBALLET, Romain; BOUYSSOU, Charles; MALLET, Alban; ROUX, Philippe; ZAKERI, Mahriz; DIRRENBERGER, Justin (Butterworth-Heinemann, 2019)In this chapter a new additive manufacturing (AM) processing route is introduced for ultra-high-performance concrete. Interdisciplinary work involving materials science, computation, robotics, architecture, and design ...
-
Chapitre d'ouvrage scientifiqueGAUDILLIÈRE, Nadja; DUBALLET, Romain; BOUYSSOU, Charles; MALLET, Alban; ROUX, Philippe; ZAKERI, Mahriz; DIRRENBERGER, Justin (Springer International Publishing, 2018)In the present paper a new additive manufacturing processing route is introduced to produce ultra-high-performance concrete complex architectonic elements, by printing integrated formwork. Interdisciplinary work involving ...