Description du projet
Un béton isolant ultra-léger pour l’impression 3D
L’industrie de la construction s’appuie encore sur des processus séculaires pour gérer des projets complexes. Être en mesure de faire de l’impression 3D avec du béton pourrait révolutionner la construction. De nombreuses recherches ont été menées à ce sujet, mais très peu d’attention a été accordée à la conception d’isolants pour les murs imprimés. Le projet Ultra-LightCon-3D, financé par l’UE, vise à combler cette lacune en introduisant le premier matériau isolant en béton ultra-léger (ULWC) pour l’impression 3D. Cet outil permettra de développer des modèles 3D ULWC affichant des propriétés mécaniques et isolantes optimisées, permettant de réduire les coûts et les déchets de béton. Le projet contribuera au développement de constructions économes en énergie conformément à la stratégie de l’UE en matière d’efficacité énergétique.
Objectif
The construction industry does not follow the same enlightened path as other fields of science and has thus suffered a technology bypass, relying on centuries-old processes and procedures to manage complex modern projects. In conventional concrete construction projects, more than 60% of the total cost is spent on the formwork. One of the technologies which can revolutionize our perception and approach to construction, is 3D printing of concrete. 3D printing, also referred to as Additive Manufacturing (AM), is a technology which builds solid parts via a layer-by-layer process. Since in 3D printing, no formwork is required, and a short project time is required due to continuous work done by the printer, a dramatic reduction in the project cost and improvement of workers’ safety can be achieved. Up to date, much research has been conducted in the field of printing technique, while design of proper insulation of printed walls has gathered little attention. Although, this issue is highly important due to gradually tightening EU regulations. Therefore, proposed project is aiming to fill the gap in knowledge and introduce for the first-time insulating ultra-lightweight concrete (ULWC) material for AM. By proposed interdisciplinary methodology, based on the experimental and numerical methods, in micro- and macro-scales technology, a multi-scale tool enabling to produce advanced 3D printed wall systems. Multi-scale tool will allow to develop 3D models of ULWCs with optimized mechanical and insulating properties. Hence, limited amount of required field and labor works will be necessary, thus further decrement of the final concrete cost and waste production will be achieved. Through the interdisciplinary approach and establishing industrial cooperation, this project will contribute towards development and production of energy saving constructions in accordance with EU Energy Efficiency Strategy.
Champ scientifique
Programme(s)
Régime de financement
MSCA-IF-EF-ST - Standard EFCoordinateur
10623 Berlin
Allemagne