Your search keyword '"Ducoulombier Nicolas"' showing total 3 results

1. Free Deposition Printing for Space Truss Structures

Author

Duballet, Romain, Mesnil, Romain, Ducoulombier, Nicolas, Carneau, Paul, Demont, Leo, Motamedi, Mahan, Baverel, Olivier, Caron, Jean-François, Dirrenberger, Justin, Bos, Freek P., editor, Lucas, Sandra S., editor, Wolfs, Rob J.M., editor, and Salet, Theo A.M., editor

Published

2020

2. Assessing the fresh properties of printable cement-based materials: High potential tests for quality control

Author

Roussel Nicolas, Buswell Richard, Ducoulombier Nicolas, Ivanova Irina, Kolawole John Temitope, Lowke Dirk, Mechtcherine Viktor, Mesnil Romain, Perrot Arnaud, Pott Ursula, Reiter Lex, Stephan Dietmar, Wangler Timothy, Wolfs Rob, Zuo Wenqiang, Concrete Structures, and 3D Concrete Printing

Subjects

Digital fabrication, General Materials Science, Building and Construction, 3D printing, Yield stress, Elasticity

Abstract

In the absence of a formwork, printable materials are expected to quickly increase their consistency in order to resist the self-weight of the structure being printed. Resolving this rheological requirement with the printing process is the key to successful printing. It is therefore necessary, from a material design, from a process design and from a daily quality control point of view, to have the ability to measure the relevant fresh properties. Because of the range of stresses of interest, there only exist a few standard tests in literature allowing for such an assessment while some new ones were developed in the last decade. The present paper aims at presenting some of these tests along with some preliminary data supporting their ability to capture the material properties of interest while discussing the remaining and related open research questions.

Published

2022

3. On-line and in-line quality assessment across all scale levels of 3D concrete printing.

Author

Wolfs, Rob, Bos, Derk, Caron, Jean-François, Gerke, Markus, Mesnil, Romain, Buswell, Richard, Ducoulombier, Nicolas, Hack, Norman, Keita, Emmanuel, Kinnell, Peter, Mawas, Karam, Mechtcherine, Viktor, Miranda, Luiza, Sokolov, Dmitrii, Versteege, Jelle, and Roussel, Nicolas

Subjects

*RAPID prototyping, *THREE-dimensional printing, *EVIDENCE gaps, *CONFORMITY, *RESEARCH methodology

Abstract

3D Concrete printing requires much more elaborate quality control procedures compared to conventional concrete processing. Due to the various process steps, and the corresponding variation in material behaviour, time-, and length-scales, a single quality indicator and measurement technique (similar to the 'slump test' for traditional construction) cannot be selected. Instead, three families of quality indicators have been established: homogeneity during material production and deposition (quality variations), material evolution during printing (transient material behaviour), and macroscopic features and geometric conformity during printing and of the final object (geometry). For each family, quality assessment techniques which have been proven in other fields or for different applications, have been successfully transferred and adapted to the 3DCP process. In some cases, completely new methods have been developed. This paper aims to provide the state-of-the-art in such quality assessment methods, indicating high potential methods and research gaps across all scale levels of 3D concrete printing processes. [ABSTRACT FROM AUTHOR]

Published

2024