Abstract
Extrusion-based additive manufacturing imposes high requirements on the material stability right after the extrusion. Therefore, a thorough understanding of the chemical reactions that determine the early reduction in processability is necessary. Accelerators are especially considered here, which have a major influence on the early reaction. This study contributes to these issues by analyzing the influence of 0.1 wt% TEA (triethanolamine) and 2.0 wt% Ca(NO3)2 on the hydration of two CEM I 52.5 R. The hydration was analyzed by isothermal heat flow calorimetry and in-situ X-ray diffraction. Vicat needle penetration, a penetrometer of own design, and ultrasonic P-wave velocity development were used to monitor the early change in workability. The obtained results indicate that ettringite formation is the main factor influencing workability during the first 60 min of hydration. Afterwards, the influence of ettringite is exceeded by the formation of C–S–H. Ca(NO3)2 was shown to enhance C–S–H formation and had no significant effect on the workability during the first 60 min of hydration while rapidly decreasing workability during the induction period. TEA was shown to increase brownmillerite dissolution and ettringite formation and, consequently, promote the workability loss during the initial hydration period. The time of initial and final setting determined by the Vicat needle test depended mainly on the formation of C–S–H phases.
Highlights
Digital fabrication describes the combination of computer-aided design (CAD) and automated additive as well as subtractive manufacturing technologies
The influence of the two accelerating admixtures Ca(NO3)2 and TEA on the formation of hydration products and the dissolution of clinker phases during the early stages of cement hydration will be discussed based on the presented results of isothermal calorimetry (Fig. 4) and in-situ X-ray diffraction (XRD) (Figs. 6, 7) starting with the initial dissolution
Regarding the influence of the two accelerating admixtures on the early hydration mechanisms of the tested cements, it was found that Ca(NO3)2 had no significant influence on the initial heat flow but increased the heat flow during the induction period
Summary
Digital fabrication describes the combination of computer-aided design (CAD) and automated additive as well as subtractive manufacturing technologies. As the additive manufacturing of large-scale components using concrete or mortar extrusion has several advantages over conventional concreting, it has been gaining increasing attention in research and industry [1, 2]. Perrot et al [6] conclude that the printability and the buildability of material are competing factors that need to be optimized in order to achieve additively manufactured large-scale components. This optimization requires a thorough understanding of early cement hydration and the chemical reactions controlling workability reduction. Cement accelerators, introduced into the material just before extrusion, might be a reliable option for materials to combine high printability with a high buildability in additive manufacturing
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