Effect of coarse aggregate content on the rheological and buildability properties of 3D printable concrete

Additive manufacturing in construction industry is gaining attention among both researchers and industries. The present study deals with the effect of coarse aggregate (CA) content on the performance of 3D printable concrete. The fresh and rheological properties of the designed concrete with 8 mm down sized CA were assessed. The rheological parameters for the material with varying coarse aggregate (CA) volume fraction from 0% to 50% were studied. There is limited literature on the effect of large sized CA on the printability of the concrete. The rheological properties were measured using in-house developed rheometer designed for concrete with CA. The concrete mix with CA content percentage 10%, 20%, 30%, 40% and 50% were compared with control mix (CA content 0%). The static and dynamic yield stress values for 20% and 30% CA content followed decreasing trend and when increased more than threshold limit of 30%, the yield stress values increased. It was observed that the mortar volume ratio, fine aggregate ratio with respect to CA influences the rheological properties and slump flow. Relationship between the slump flow value and static yield stress was fixed for the designed concrete. Extrusion based layer by layer printing of cementitious material without the support of form-work makes the material more prone to failure and qualitative approach to resist the failure of the material while printing is a key aspect in 3D concrete printing and this quality is termed as 'buildability'. The challenge lies in designing a material which is flowable with minimum dynamic yield stress and increased structuration rate confirming that the material attains the yield strength once the printing is initiated. The concrete mix with flowability 180 mm to 190 mm was having good buildability and smooth extrusion. The buildability of the designed concrete mix was calculated using Kruger's analytical model in terms of number of layers and validated the model by direct printing method. The printing parameters like printing speed and resting time was fixed for the concrete with 8 mm down sized aggregate. The concrete mix with 40% CA content showed better buildability with optimum static and dynamic yield stress values.

Automated summary

The effect of coarse aggregate content on the performance of 3D printable concrete was studied. Rheological properties of the concrete mix with varying coarse aggregate volume fraction were analyzed. It was found that the mortar volume ratio and fine aggregate ratio influenced the rheological properties and slump flow of the concrete. The concrete mix with 40% coarse aggregate content showed the best buildability with optimal static and dynamic yield stress values.