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arxiv: 2406.05238 · v1 · pith:GACRFDHKnew · submitted 2024-06-07 · ❄️ cond-mat.soft

A thermo-hygro computational model to determine the factors dictating cold joint formation in 3D printed concrete

classification ❄️ cond-mat.soft
keywords coldjointconcretefactorsformationmodelcomputationaldrying
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Cold joints in extruded concrete structures form once the exposed surface of a deposited filament dries prematurely and gets sequentially covered by a layer of fresh concrete. This creates a material heterogeneity which lowers the structural durability and shortens the designed service life. Many factors concurrently affect cold joint formation, yet a suitable tool for their categorization is missing. Here, we present a computational model that simulates the drying kinetics at the exposed structural surface, accounting for cement hydration and the resulting microstructural development. The model provides a time estimate for cold joint formation as a result. It allows us to assess the drying severity for a given structure's geometry, its interaction with the environment, and ambient conditions. We evaluate the assessed factors and provide generalized recommendations for cold joint mitigation.

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