3D Printing of Continuous-Fibers Cementitious Composites (2023-10)¶
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Contribution - Visions and Strategies for Reinforcing Additively Manufactured Constructions
Abstract
Significant developments in 3D concrete have been made over the past few decades. Yet, unreinforced printed components generally do not comply with existing construction standards or regulations and are therefore not used as load-bearing components. There is still a gap between research and use, and despite several proposals, standard commercial solutions for the reinforcement of 3D-printed structural members are still awaited. The proposed technology is inspired by the composites industry and called flow-based pultrusion for additive manufacturing. The reinforcement is provided by long and aligned fibers, and produces a transverse isotropic composite mortar. Here we show the first experimental setup, and the material tests performed on the printed material. An increase in tensile strength and ductility is shown. An industrial prototype, in collaboration with the company XtreeE, is being developed. This new equipment has made it possible to print beams of 1m50 whose intrados is reinforced with carbon fibres.
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14 References
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Rethinking Reinforcement for Digital Fabrication with Concrete - Bos Freek, Ahmed Zeeshan, Jutinov Evgeniy, Salet Theo (2017-11)
Experimental Exploration of Metal-Cable as Reinforcement in 3D Printed Concrete - Bos Freek, Bosco Emanuela, Salet Theo (2018-11)
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3D Printing of Mortar with Continuous Fibers:
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Flow-Based Pultrusion of Continuous Fibers for Cement-Based Composite Material and Additive Manufacturing:
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A Flow-Based Pultrusion of Continuous Fibers in a Cementitious Matrix - Hamidi Fatemeh, Aslani Farhad (2019-05)
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Materials, Methods, Potentials, and Challenge - Li Victor, Bos Freek, Yu Kequan, McGee Wesley et al. (2020-04)
On the Emergence of 3D Printable Engineered, Strain-Hardening Cementitious Composites - Lim Jian, Panda Biranchi, Pham Quang-Cuong (2018-05)
Improving Flexural Characteristics of 3D Printed Geopolymer Composites with In-Process Steel-Cable-Reinforcement - Marchment Taylor, Sanjayan Jay (2019-10)
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Concept and Feasibility Study - Mechtcherine Viktor, Michel Albert, Liebscher Marco, Schneider Kai et al. (2019-11)
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Material and Automation Perspectives - Neef Tobias, Mechtcherine Viktor (2021-11)
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Developing and Testing of Strain-Hardening Cement-Based Composites (SHCC) in the Context of 3D Printing
3 Citations
- Sando Mona, Alves Santos Sara, Worms Paul, Gurlo Aleksander et al. (2025-12)
Evaluation of Continuous Epoxy-Impregnated Carbon Fiber Reinforcement in a 3D-Printable Geopolymer Composite - Gantner Stefan, Rennen Philipp, Amiri Fatemeh, Rothe Tom et al. (2025-05)
Robotic Frame Winding:
Prefabricated Fiber Structures as Formwork and Reinforcement for Digitally Fabricated Shell-Like Concrete Elements - Caron Jean-François, Ducoulombier Nicolas, Demont Léo, Bono Victor et al. (2024-06)
Reinvent Reinforced Concrete with Robotics and 3D Printing
BibTeX
@inproceedings{caro_duco_demo_bono.2023.3PoCFCC,
author = "Jean-François Caron and Nicolas Ducoulombier and Léo Demont and Victor de Bono and Romain Mesnil",
title = "3D Printing of Continuous-Fibers Cementitious Composites: Anisotropic 3D Mortar",
doi = "10.52825/ocp.v3i.193",
year = "2023",
volume = "3",
booktitle = "Visions and Strategies for Reinforcing Additively Manufactured Constructions",
editor = "Asko Fromm and Norman Peter Hack",
}
Formatted Citation
J.-F. Caron, N. Ducoulombier, L. Demont, V. de Bono and R. Mesnil, “3D Printing of Continuous-Fibers Cementitious Composites: Anisotropic 3D Mortar”, in Visions and Strategies for Reinforcing Additively Manufactured Constructions, 2023, vol. 3. doi: 10.52825/ocp.v3i.193.
Caron, Jean-François, Nicolas Ducoulombier, Léo Demont, Victor de Bono, and Romain Mesnil. “3D Printing of Continuous-Fibers Cementitious Composites: Anisotropic 3D Mortar”. In Visions and Strategies for Reinforcing Additively Manufactured Constructions, edited by Asko Fromm and Norman Peter Hack, Vol. 3, 2023. https://doi.org/10.52825/ocp.v3i.193.