At the end of the last century, 3D printing of concrete became an innovative method for producing
concrete structures. The beginning of the application of 3D printing in the concrete construction industry is referred to the Contour Crafting printing method. In addition to Contour Crafting, other methods such as Fused Deposition Modeling, Shotcrete 3D Printing, and ink printing method, developed and utilized
by D-Shape, have been applied in this field. Through the use of these technologies, numerous structures
have been successfully created, including one-story and multi-story houses, residential buildings,
pedestrian bridges, as well as individual elements like columns, walls, facade panels and outdoor
furniture. However, the wider implementation of this technology has revealed various challenges, such
as the lack of regulations and standards for the production and testing of these concrete materials as well
as the structural analysis of 3D printed structures.
The topic of this... research is the investigation of the hardened properties of 3D printed concrete. The
focus is on the physical and mechanical properties such as the bulk density of concrete, compressive
strength, flexural strength and interlayer bond strength. This paper gives an overview of previous
research on these properties, while the experimental part gives insight into the results of own research.
Two types of specimen processing were used: full-notch removal (series 1) and printed samples (series
2). Additionally, samples with four or six layers were analyzed.
The obtained values for bulk density were 1964.46 kg/m³ for full-notch removal samples and 1859.62
kg/m³ for printed samples. The compressive strength was 25 MPa for perpendicular and lateral
directions, while the bending strength was 5.57 MPa. A significant influence of layering on fracture
patterns and results was observed during the bond strength testing. The obtained values ranged from
1.59 to 2.91 MPa, the lowest value was obtained in the axial tension test, while the highest value was
achieved in the shear test. The highest uniformity of results was achieved for series 1 samples tested in
axial tension and splitting tests.
Keywords:
Additive manufacturing / 3D printed concrete / Hardened properties / Mechanical testing / Bond strength
Source:
Proceedings 20th International Symposium of Macedonian Association of Structural Engineers, 2023, 1052-1064
TY - CONF
AU - Mitrović, Stefan
AU - Ignjatović, Ivan
PY - 2023
UR - https://grafar.grf.bg.ac.rs/handle/123456789/3200
AB - At the end of the last century, 3D printing of concrete became an innovative method for producing
concrete structures. The beginning of the application of 3D printing in the concrete construction industry is referred to the Contour Crafting printing method. In addition to Contour Crafting, other methods such as Fused Deposition Modeling, Shotcrete 3D Printing, and ink printing method, developed and utilized
by D-Shape, have been applied in this field. Through the use of these technologies, numerous structures
have been successfully created, including one-story and multi-story houses, residential buildings,
pedestrian bridges, as well as individual elements like columns, walls, facade panels and outdoor
furniture. However, the wider implementation of this technology has revealed various challenges, such
as the lack of regulations and standards for the production and testing of these concrete materials as well
as the structural analysis of 3D printed structures.
The topic of this research is the investigation of the hardened properties of 3D printed concrete. The
focus is on the physical and mechanical properties such as the bulk density of concrete, compressive
strength, flexural strength and interlayer bond strength. This paper gives an overview of previous
research on these properties, while the experimental part gives insight into the results of own research.
Two types of specimen processing were used: full-notch removal (series 1) and printed samples (series
2). Additionally, samples with four or six layers were analyzed.
The obtained values for bulk density were 1964.46 kg/m³ for full-notch removal samples and 1859.62
kg/m³ for printed samples. The compressive strength was 25 MPa for perpendicular and lateral
directions, while the bending strength was 5.57 MPa. A significant influence of layering on fracture
patterns and results was observed during the bond strength testing. The obtained values ranged from
1.59 to 2.91 MPa, the lowest value was obtained in the axial tension test, while the highest value was
achieved in the shear test. The highest uniformity of results was achieved for series 1 samples tested in
axial tension and splitting tests.
PB - Macedonian Association of Structural Engineers
C3 - Proceedings 20th International Symposium of Macedonian Association of Structural Engineers
T1 - Hardened properties of 3D printed concrete - experimental investigation
EP - 1064
SP - 1052
UR - https://hdl.handle.net/21.15107/rcub_grafar_3200
ER -
@conference{
author = "Mitrović, Stefan and Ignjatović, Ivan",
year = "2023",
abstract = "At the end of the last century, 3D printing of concrete became an innovative method for producing
concrete structures. The beginning of the application of 3D printing in the concrete construction industry is referred to the Contour Crafting printing method. In addition to Contour Crafting, other methods such as Fused Deposition Modeling, Shotcrete 3D Printing, and ink printing method, developed and utilized
by D-Shape, have been applied in this field. Through the use of these technologies, numerous structures
have been successfully created, including one-story and multi-story houses, residential buildings,
pedestrian bridges, as well as individual elements like columns, walls, facade panels and outdoor
furniture. However, the wider implementation of this technology has revealed various challenges, such
as the lack of regulations and standards for the production and testing of these concrete materials as well
as the structural analysis of 3D printed structures.
The topic of this research is the investigation of the hardened properties of 3D printed concrete. The
focus is on the physical and mechanical properties such as the bulk density of concrete, compressive
strength, flexural strength and interlayer bond strength. This paper gives an overview of previous
research on these properties, while the experimental part gives insight into the results of own research.
Two types of specimen processing were used: full-notch removal (series 1) and printed samples (series
2). Additionally, samples with four or six layers were analyzed.
The obtained values for bulk density were 1964.46 kg/m³ for full-notch removal samples and 1859.62
kg/m³ for printed samples. The compressive strength was 25 MPa for perpendicular and lateral
directions, while the bending strength was 5.57 MPa. A significant influence of layering on fracture
patterns and results was observed during the bond strength testing. The obtained values ranged from
1.59 to 2.91 MPa, the lowest value was obtained in the axial tension test, while the highest value was
achieved in the shear test. The highest uniformity of results was achieved for series 1 samples tested in
axial tension and splitting tests.",
publisher = "Macedonian Association of Structural Engineers",
journal = "Proceedings 20th International Symposium of Macedonian Association of Structural Engineers",
title = "Hardened properties of 3D printed concrete - experimental investigation",
pages = "1064-1052",
url = "https://hdl.handle.net/21.15107/rcub_grafar_3200"
}
Mitrović, S.,& Ignjatović, I.. (2023). Hardened properties of 3D printed concrete - experimental investigation. in Proceedings 20th International Symposium of Macedonian Association of Structural Engineers
Macedonian Association of Structural Engineers., 1052-1064.
https://hdl.handle.net/21.15107/rcub_grafar_3200
Mitrović S, Ignjatović I. Hardened properties of 3D printed concrete - experimental investigation. in Proceedings 20th International Symposium of Macedonian Association of Structural Engineers. 2023;:1052-1064.
https://hdl.handle.net/21.15107/rcub_grafar_3200 .
Mitrović, Stefan, Ignjatović, Ivan, "Hardened properties of 3D printed concrete - experimental investigation" in Proceedings 20th International Symposium of Macedonian Association of Structural Engineers (2023):1052-1064,
https://hdl.handle.net/21.15107/rcub_grafar_3200 .
,