Interaction Between Material and Process-Parameters During 3D Concrete-Extrusion-Process (2024-10)¶
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Journal Article - Structures, Vol. 70, No. 107678
Abstract
Extrusion of cement-based materials in additive manufacturing is influenced by a complex interaction of various material and process parameters. This study aims to investigate the impact of rheological properties and printing parameters on the extrudability of cement-based materials as well as the interaction between rheological properties of print materials and extrusion speed, as a key printing process parameter. 20 different print materials with diverse rheological properties were extruded at 10 different extrusion speeds. The effect of material parameters (i.e. rheological properties) and process parameters (i.e., extrusion speed) and their interaction during the extrusion process were evaluated using filament continuity, conformity and consistency. At a constant printing speed, a higher yield stress adversely impacted filament continuity in mixtures with a yield stress of over 260 Pa, whereas viscosity showed minimal influence on filament quality within the tested range of the rheological properties. The results of this study highlighted a significant correlation between material and process parameters and that adapting process parameters to variations in material properties is crucial for meeting printing criteria. The filament consistency of the mixtures with high yield stress was more sensitive to change in the extrusion speed than that of mixtures with low yield stress. An opposite trend, however, was observed for filament conformity where low yield stress mixtures showed a higher sensitivity to the extrusion speed. A procedure was suggested and applied to determine the optimum extrusion speed. Optimal extrusion speeds enabled printing mixtures with a broader spectrum of rheological properties with an acceptable visual quality, filament conformity and consistency requirements. With extrusion speed adjustment, the extrudability window was expanded from dynamic yield stress of 108–126 Pa to 108–263 Pa and plastic viscosity of 8.2–12.3 Pa.s to 5.1–16.4 Pa.s.
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5 Citations
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BibTeX
@article{fasi_libr.2024.IBMaPPD3CEP,
author = "Ali Fasihi and Nicolas Ali Libre",
title = "Interaction Between Material and Process-Parameters During 3D Concrete-Extrusion-Process",
doi = "10.1016/j.istruc.2024.107678",
year = "2024",
journal = "Structures",
volume = "70",
pages = "107678",
}
Formatted Citation
A. Fasihi and N. A. Libre, “Interaction Between Material and Process-Parameters During 3D Concrete-Extrusion-Process”, Structures, vol. 70, p. 107678, 2024, doi: 10.1016/j.istruc.2024.107678.
Fasihi, Ali, and Nicolas Ali Libre. “Interaction Between Material and Process-Parameters During 3D Concrete-Extrusion-Process”. Structures 70 (2024): 107678. https://doi.org/10.1016/j.istruc.2024.107678.