The evaluation of rheological parameters of 3D printable concretes and the effect of accelerating admixture

[Display omitted] •The rotational rheometry results were higher (t > 15 min) than the direct shear test.•The yield stress evolves exponentially (since t = 0 min) with the use of accelerators.•A new model for the exponential evolution of the yield stress is proposed.•An analytical model, which pre...

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Bibliographic Details
Published in:Construction & building materials 2021-03, Vol.276, p.122221, Article 122221
Main Authors: Prevedello Rubin, Ariane, Hasse, Jéssica Amanda, Longuini Repette, Wellington
Format: Article
Language:English
Subjects:
3D printing concrete
Accelerating admixture
Direct shear test
Rheology
Rotational rheometry
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Summary:[Display omitted] •The rotational rheometry results were higher (t > 15 min) than the direct shear test.•The yield stress evolves exponentially (since t = 0 min) with the use of accelerators.•A new model for the exponential evolution of the yield stress is proposed.•An analytical model, which predicts the buildability of 3DCP, is reviewed. Direct shear test and rotational rheometry were performed and compared as methods to estimate the rheological parameters of 3D printable concretes. For this, 3 concrete mixes, having a cohesive flow nature were produced with different proportions of accelerating admixtures, in order to evaluate the improvement on the yield strength gain of said mixes. Results have shown that both methods can predict the fresh state evolution of concrete. However, the obtained values for yield strength on the rotational rheometry tests were higher than those collected on the direct shear test. The yield stress for some concretes tends to evolve linearly with increasing resting time, and when using accelerating admixtures, the increase becomes exponential, even during the first few minutes, due to the high ettringite formation caused by the accelerator action. A model for the exponential evolution of the yield stress is proposed and an analytical model, which predicts the buildability capacity of printable concretes, is reviewed and updated.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2020.122221