Recycled brick aggregates in one-part alkali-activated materials: Impact on 3D printing performance and material properties

Yazeed A. Al-Noaimat; Mehdi Chougan; Abdulrahman Albar; Szymon Skibicki; Karol Federowicz; Marcin Hoffman; Daniel Sibera; Krzysztof Cendrowski; Mateusz Techman; João Nuno Pacheco; Sang Yeop Chung; Pawel Sikora; Mazen Al-Kheetan; Seyed Hamidreza Ghaffar

doi:10.1016/j.dibe.2023.100248

Recycled brick aggregates in one-part alkali-activated materials: Impact on 3D printing performance and material properties

Yazeed A. Al-Noaimat, Mehdi Chougan, Abdulrahman Albar, Szymon Skibicki, Karol Federowicz, Marcin Hoffman, Daniel Sibera, Krzysztof Cendrowski, Mateusz Techman, João Nuno Pacheco, Sang Yeop Chung, Pawel Sikora, Mazen Al-Kheetan, Seyed Hamidreza Ghaffar^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

This study investigates the printability of one-part brick powder-based alkali-activated materials (AAMs) containing end-of-life brick particles as aggregate. The novel formulation showcases promise for 3D printing of small to medium-sized building blocks, reminiscent of a Lego-type system, capitalising on the rapid setting time inherent to one-part AAMs. The effect of replacing up to 50% by weight of natural aggregate with brick aggregate on the fresh properties of brick powder-based alkali-activated materials, including slump measurements, flowability, setting time, open time and green strength were investigated. In addition, the flexural and compressive strength of the 3D printed mixtures were determined and compared to those of cast specimens. The buildability and microstructure were also examined. The results showed that incorporating high porous and rough brick aggregate to replace natural aggregate is beneficial in improving the mixtures’ slump, which is essential for retaining the shape of the printed layers. However, it decreased the flowability, setting time and open time when incorporating up to 50% brick aggregate. The green, flexural and compressive strengths were increased with increasing brick aggregate content up to 50% due to enhancing interlock between the binder and brick aggregate, and the better compaction because of the absorption properties of brick aggregate. The mechanical results revealed the better performance of 3D printed specimens than the cast specimens. Moreover, the incorporation of brick aggregate enhanced the buildability of the mixtures showcasing their potential in advancing 3D printing capabilities.

Original language	English
Article number	100248
Number of pages	15
Journal	Developments in the Built Environment
Volume	16
Early online date	12 Oct 2023
DOIs	https://doi.org/10.1016/j.dibe.2023.100248
Publication status	Published - Dec 2023

Bibliographical note

Funding Information:
This work was funded as part of the DigiMat project, which has received funding from the European Union's Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement ID: 101029471.

This research was funded in part by the National Center for Research and Development (NCBR) , Poland within Project no. ERA-MIN3/140/Recycl3D/2022 (ERA-NET Cofund ERA-MIN3 (Joint Call 2021)). The funding provided by FCT - the Portuguese Foundation for Science and Technology, is acknowledged: references UIDB/04625/2020 (CERIS research centre) and ERA-MIN3/0001/2021 (ERA-NET Cofund ERA-MIN3).

Publisher Copyright:
© 2023

Keywords

3D printing
Brick aggregate
Brick powder
Buildability
One-part alkali-activated materials

ASJC Scopus subject areas

Architecture
Civil and Structural Engineering
Building and Construction
Materials Science (miscellaneous)
Computer Science Applications
Computer Graphics and Computer-Aided Design

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10.1016/j.dibe.2023.100248Licence: Creative Commons: Attribution (CC BY)

AlNoaimatY2023RecycledFinal published version, 14.7 MBLicence: Creative Commons: Attribution (CC BY)

Cite this

Al-Noaimat, Y. A., Chougan, M., Albar, A., Skibicki, S., Federowicz, K., Hoffman, M., Sibera, D., Cendrowski, K., Techman, M., Pacheco, J. N., Chung, S. Y., Sikora, P., Al-Kheetan, M., & Ghaffar, S. H. (2023). Recycled brick aggregates in one-part alkali-activated materials: Impact on 3D printing performance and material properties. Developments in the Built Environment, 16, Article 100248. https://doi.org/10.1016/j.dibe.2023.100248

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abstract = "This study investigates the printability of one-part brick powder-based alkali-activated materials (AAMs) containing end-of-life brick particles as aggregate. The novel formulation showcases promise for 3D printing of small to medium-sized building blocks, reminiscent of a Lego-type system, capitalising on the rapid setting time inherent to one-part AAMs. The effect of replacing up to 50% by weight of natural aggregate with brick aggregate on the fresh properties of brick powder-based alkali-activated materials, including slump measurements, flowability, setting time, open time and green strength were investigated. In addition, the flexural and compressive strength of the 3D printed mixtures were determined and compared to those of cast specimens. The buildability and microstructure were also examined. The results showed that incorporating high porous and rough brick aggregate to replace natural aggregate is beneficial in improving the mixtures{\textquoteright} slump, which is essential for retaining the shape of the printed layers. However, it decreased the flowability, setting time and open time when incorporating up to 50% brick aggregate. The green, flexural and compressive strengths were increased with increasing brick aggregate content up to 50% due to enhancing interlock between the binder and brick aggregate, and the better compaction because of the absorption properties of brick aggregate. The mechanical results revealed the better performance of 3D printed specimens than the cast specimens. Moreover, the incorporation of brick aggregate enhanced the buildability of the mixtures showcasing their potential in advancing 3D printing capabilities.",

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author = "Al-Noaimat, {Yazeed A.} and Mehdi Chougan and Abdulrahman Albar and Szymon Skibicki and Karol Federowicz and Marcin Hoffman and Daniel Sibera and Krzysztof Cendrowski and Mateusz Techman and Pacheco, {Jo{\~a}o Nuno} and Chung, {Sang Yeop} and Pawel Sikora and Mazen Al-Kheetan and Ghaffar, {Seyed Hamidreza}",

note = "Funding Information: This work was funded as part of the DigiMat project, which has received funding from the European Union's Horizon 2020 research and innovation program under the Marie Sk{\l}odowska-Curie grant agreement ID: 101029471. This research was funded in part by the National Center for Research and Development (NCBR) , Poland within Project no. ERA-MIN3/140/Recycl3D/2022 (ERA-NET Cofund ERA-MIN3 (Joint Call 2021)). The funding provided by FCT - the Portuguese Foundation for Science and Technology, is acknowledged: references UIDB/04625/2020 (CERIS research centre) and ERA-MIN3/0001/2021 (ERA-NET Cofund ERA-MIN3). Publisher Copyright: {\textcopyright} 2023",

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Al-Noaimat, YA, Chougan, M, Albar, A, Skibicki, S, Federowicz, K, Hoffman, M, Sibera, D, Cendrowski, K, Techman, M, Pacheco, JN, Chung, SY, Sikora, P, Al-Kheetan, M & Ghaffar, SH 2023, 'Recycled brick aggregates in one-part alkali-activated materials: Impact on 3D printing performance and material properties', Developments in the Built Environment, vol. 16, 100248. https://doi.org/10.1016/j.dibe.2023.100248

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AU - Al-Noaimat, Yazeed A.

AU - Chougan, Mehdi

AU - Albar, Abdulrahman

AU - Skibicki, Szymon

AU - Federowicz, Karol

AU - Hoffman, Marcin

AU - Sibera, Daniel

AU - Cendrowski, Krzysztof

AU - Techman, Mateusz

AU - Pacheco, João Nuno

AU - Chung, Sang Yeop

AU - Sikora, Pawel

AU - Al-Kheetan, Mazen

AU - Ghaffar, Seyed Hamidreza

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PY - 2023/12

Y1 - 2023/12

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AB - This study investigates the printability of one-part brick powder-based alkali-activated materials (AAMs) containing end-of-life brick particles as aggregate. The novel formulation showcases promise for 3D printing of small to medium-sized building blocks, reminiscent of a Lego-type system, capitalising on the rapid setting time inherent to one-part AAMs. The effect of replacing up to 50% by weight of natural aggregate with brick aggregate on the fresh properties of brick powder-based alkali-activated materials, including slump measurements, flowability, setting time, open time and green strength were investigated. In addition, the flexural and compressive strength of the 3D printed mixtures were determined and compared to those of cast specimens. The buildability and microstructure were also examined. The results showed that incorporating high porous and rough brick aggregate to replace natural aggregate is beneficial in improving the mixtures’ slump, which is essential for retaining the shape of the printed layers. However, it decreased the flowability, setting time and open time when incorporating up to 50% brick aggregate. The green, flexural and compressive strengths were increased with increasing brick aggregate content up to 50% due to enhancing interlock between the binder and brick aggregate, and the better compaction because of the absorption properties of brick aggregate. The mechanical results revealed the better performance of 3D printed specimens than the cast specimens. Moreover, the incorporation of brick aggregate enhanced the buildability of the mixtures showcasing their potential in advancing 3D printing capabilities.

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Recycled brick aggregates in one-part alkali-activated materials: Impact on 3D printing performance and material properties

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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