Drying of 3D Printed Mortar Filaments at Early Age Assessed by X-Ray Computed Tomography

Wenqiang Zuo; Emmanuel Keita; Michel Bornert; Nicolas Roussel

doi:10.1007/978-3-030-49916-7_58

Drying of 3D Printed Mortar Filaments at Early Age Assessed by X-Ray Computed Tomography

Wenqiang Zuo, Emmanuel Keita, Michel Bornert, Nicolas Roussel

Université Gustave Eiffel

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

3D extrusion-based additive manufacturing is known as the most widely applied printing strategy for digital fabrication of civil engineering materials. This construction method does not only require specific rheological properties and structural build-ups rates, but also mechanical properties comparable to conventional materials. In the current work, manually cast mortar filaments consisting of cement paste and glass beads are used to mimic the 3D printed cement-based materials. We first compare the 3D tomography of mortar between sealed and dried conditions with or without mold constraint at early age. We then carry out the 3-point-bending tests for sealed and dried mortar. Our results suggest that at very early age before setting, drying phenomena induce irreversible microcracks which lead to a deterioration of mechanical strength of the filaments.

Original language	English
Title of host publication	RILEM Bookseries
Publisher	Springer
Pages	564-571
Number of pages	8
DOIs	https://doi.org/10.1007/978-3-030-49916-7_58
Publication status	Published - 1 Jan 2020
Externally published	Yes

Publication series

Name	RILEM Bookseries
Volume	28
ISSN (Print)	2211-0844
ISSN (Electronic)	2211-0852

Keywords

3D printing
Cracking
Drying
X-ray computed tomography

Access to Document

10.1007/978-3-030-49916-7_58

Cite this

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abstract = "3D extrusion-based additive manufacturing is known as the most widely applied printing strategy for digital fabrication of civil engineering materials. This construction method does not only require specific rheological properties and structural build-ups rates, but also mechanical properties comparable to conventional materials. In the current work, manually cast mortar filaments consisting of cement paste and glass beads are used to mimic the 3D printed cement-based materials. We first compare the 3D tomography of mortar between sealed and dried conditions with or without mold constraint at early age. We then carry out the 3-point-bending tests for sealed and dried mortar. Our results suggest that at very early age before setting, drying phenomena induce irreversible microcracks which lead to a deterioration of mechanical strength of the filaments.",

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AU - Zuo, Wenqiang

AU - Keita, Emmanuel

AU - Bornert, Michel

AU - Roussel, Nicolas

PY - 2020/1/1

Y1 - 2020/1/1

N2 - 3D extrusion-based additive manufacturing is known as the most widely applied printing strategy for digital fabrication of civil engineering materials. This construction method does not only require specific rheological properties and structural build-ups rates, but also mechanical properties comparable to conventional materials. In the current work, manually cast mortar filaments consisting of cement paste and glass beads are used to mimic the 3D printed cement-based materials. We first compare the 3D tomography of mortar between sealed and dried conditions with or without mold constraint at early age. We then carry out the 3-point-bending tests for sealed and dried mortar. Our results suggest that at very early age before setting, drying phenomena induce irreversible microcracks which lead to a deterioration of mechanical strength of the filaments.

AB - 3D extrusion-based additive manufacturing is known as the most widely applied printing strategy for digital fabrication of civil engineering materials. This construction method does not only require specific rheological properties and structural build-ups rates, but also mechanical properties comparable to conventional materials. In the current work, manually cast mortar filaments consisting of cement paste and glass beads are used to mimic the 3D printed cement-based materials. We first compare the 3D tomography of mortar between sealed and dried conditions with or without mold constraint at early age. We then carry out the 3-point-bending tests for sealed and dried mortar. Our results suggest that at very early age before setting, drying phenomena induce irreversible microcracks which lead to a deterioration of mechanical strength of the filaments.

KW - 3D printing

KW - Cracking

KW - Drying

KW - X-ray computed tomography

UR - https://www.scopus.com/pages/publications/85088243357

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EP - 571

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ER -

Drying of 3D Printed Mortar Filaments at Early Age Assessed by X-Ray Computed Tomography

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