Vision of 3D printing with concrete — Technical, economic and environmental potentials

A vision is presented on 3D printing with concrete, considering technical, economic and environmental aspects. Although several showcases of 3D printed concrete structures are available worldwide, many challenges remain at the technical and processing level. Currently available high-performance ceme...

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Veröffentlicht in:	Cement and concrete research 2018-10, Vol.112, p.25-36
Hauptverfasser:	De Schutter, Geert, Lesage, Karel, Mechtcherine, Viktor, Nerella, Venkatesh Naidu, Habert, Guillaume, Agusti-Juan, Isolda
Format:	Artikel
Sprache:	eng
Schlagworte:	3-D printers Active control Cement Complexity Concrete Concrete structures Construction costs Design optimization Economics Environmental aspects Environmental impact Rheological properties Rheology Service life Stiffening Three dimensional printing
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container_title	Cement and concrete research
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creator	De Schutter, Geert Lesage, Karel Mechtcherine, Viktor Nerella, Venkatesh Naidu Habert, Guillaume Agusti-Juan, Isolda
description	A vision is presented on 3D printing with concrete, considering technical, economic and environmental aspects. Although several showcases of 3D printed concrete structures are available worldwide, many challenges remain at the technical and processing level. Currently available high-performance cement-based materials cannot be directly 3D printed, because of inadequate rheological and stiffening properties. Active rheology control (ARC) and active stiffening control (ASC) will provide new ways of extending the material palette for 3D printing applications. From an economic point of view, digitally manufactured concrete (DFC) will induce changes in the stakeholders as well as in the cost structure. Although it is currently too ambitious to quantitatively present the cost structure, DFC presents many potential opportunities to increase cost-effectiveness of construction processes. The environmental impact of 3D printing with concrete has to be seen in relation to the shape complexity of the structure. Implementing structural optimization as well as functional hybridization as design strategies allows the use of material only where is structurally or functionally needed. This design optimization increases shape complexity, but also reduces material use in DFC. As a result, it is expected that for structures with the same functionality, DFC will environmentally perform better over the entire service life in comparison with conventionally produced concrete structures.
doi_str_mv	10.1016/j.cemconres.2018.06.001
format	Article
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Implementing structural optimization as well as functional hybridization as design strategies allows the use of material only where is structurally or functionally needed. This design optimization increases shape complexity, but also reduces material use in DFC. 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subjects	3-D printers Active control Cement Complexity Concrete Concrete structures Construction costs Design optimization Economics Environmental aspects Environmental impact Rheological properties Rheology Service life Stiffening Three dimensional printing
title	Vision of 3D printing with concrete — Technical, economic and environmental potentials
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