Titlebook: Second RILEM International Conference on Earthen Construction; ICEC 2024 Christopher Beckett,Ana Bras,Arnaud Perrot Conference proceedings

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Comprehensive Investigation into the Influence of Soil Composition and Water Content on Cracking Dueal rheology, and shrinkage cracking tests. The results indicate that the clay and water content are determining factors that minimize the appearance of cracks due to drying shrinkage. Two earthen-based formulations with zero cracks due to shrinkage resulted from replacing 50% wt. of the soil with fi

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Developing 3D-printed Natural Fiber-Rich Earth Materials in Construction: wheat straw, hemp, banana, and kenaf fibers. The results show the benefits of employing the machine mixing technique for fiber homogenization, resulting in improved performance (with bending strength increased by 29 to 78%) for the 3D printed components.

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Keeping the Processability of a Clay Mortar for Extrusion 3D Printing While Decreasing Shrinkage andinvestigates strategies to reduce the shrinkage and increase the green strength of clay mortar while ensuring that its workability for the extrusion 3D printing process is maintained..According to the results, it is found that shrinkage can be mitigated, and the green strength can be increased by re

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Optimisation of Earth-Based Mixtures in Terms of 3D-Printability and Mechanical Properties: Feasibild in the hardened state (compressive and bending strength) are presented. Finally, discussion about results and further prospects regarding possible applications for sustainable structures are presented.

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Workflow for Earth-Based 3D-Printings is investigated. For the evaluation of pumpability and buildability, the yield stress is evaluated. Mechanical strength as well as drying shrinkage are assessed as solid properties for these earth-based mixtures. The results are discussed and the developed workflow is prototypically demonstrated b

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Mechanical and Thermal Characterisation of Compressed Earth Blocks Made of Termite Mound Soil (Macrothermal properties. This new family of composite materials - termite mound soil and starch - would be ideal for the construction of modern, sustainable, renewable buildings with a low carbon footprint.

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