3D Printing of Mortar with Continuous Fibers (2021-06)¶
Principle, Properties and Potential for Application
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Journal Article - Automation in Construction, Vol. 129
Abstract
Important developments in additive manufacturing with concrete have been achieved in the past decades. Yet, printed components usually do not comply with building standards or basic reliability principles, and are not commonly used as load-bearing components. A gap between research and practice exists and despite several attempts, off-the-shelf commercial solutions for the reinforcement of the 3D printed structural components seem always expected. This article presents an alternative (pending for patent [1]) for reinforcement of 3D printed structures. This technology inspired by the composite industry is called Flow-Based Pultrusion for additive manufacturing (FBP). A strict control of the rheological behavior of the cementitious matrix ensures the routing and impregnation of continuous rovings of thin fibres (glass, basalt, etc.) without any motorization. The resulting material, Anisotropic Concrete, homogeneously reinforced in a single direction, provides new possibilities, may enhance strength and ductility for hardened material but also help to a better handling of the fresh laces during the deposition, permitting inclined or cantilever paths. This paper describes the process, its constraints, first experimental achievements and first investigations about the mechanical performances of such a material.
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BibTeX
@article{caro_demo_duco_mesn.2021.3PoMwCF,
author = "Jean-François Caron and Léo Demont and Nicolas Ducoulombier and Romain Mesnil",
title = "3D Printing of Mortar with Continuous Fibers: Principle, Properties and Potential for Application",
doi = "10.1016/j.autcon.2021.103806",
year = "2021",
journal = "Automation in Construction",
volume = "129",
}
Formatted Citation
J.-F. Caron, L. Demont, N. Ducoulombier and R. Mesnil, “3D Printing of Mortar with Continuous Fibers: Principle, Properties and Potential for Application”, Automation in Construction, vol. 129, 2021, doi: 10.1016/j.autcon.2021.103806.
Caron, Jean-François, Léo Demont, Nicolas Ducoulombier, and Romain Mesnil. “3D Printing of Mortar with Continuous Fibers: Principle, Properties and Potential for Application”. Automation in Construction 129 (2021). https://doi.org/10.1016/j.autcon.2021.103806.