About this Abstract |
Meeting |
2021 Annual International Solid Freeform Fabrication Symposium (SFF Symp 2021)
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Symposium
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Physical Modeling
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Presentation Title |
Numerical predictions of bottom layer stability in material extrusion additive manufacturing |
Author(s) |
Md. Tusher Mollah, Raphaël Comminal, Marcin P. Serdeczny , David B. Pedersen, Jon Spangenberg |
On-Site Speaker (Planned) |
Md. Tusher Mollah |
Abstract Scope |
Robocasting and 3D concrete printing are technologies that belong under the umbrella term material extrusion additive manufacturing. These two free form fabrication methods are used to produce 3D structures/components in materials such as ceramic pastes, thermosets, and concrete. Common for the materials is their viscoplastic behavior during deposition and structural buildup (i.e., increase in yield stress) after deposition. The material’s complex nature makes it a non-trivial task to ensure that printed layers do not deform when depositing additional layers on top.
In this paper, we numerically investigate the influence of the yield stress buildup of viscoplastic materials on the stability of the bottom layer during multilayer printing. Specifically, we have developed a computational fluid dynamics model that applies a scalar approach to alter the yield stress. The novel model provides fundamental knowledge on how to design the material’s rheology, so the bottom layer can withstand both the hydrostatic- and extrusion-pressure. |
Proceedings Inclusion? |
Definite: Post-meeting proceedings |