| description abstract | Cellulose-ether-based viscosity-modifying admixtures (VMAs), such as methyl hydroxyethyl cellulose (MHEC), are commonly used for improving the printability of 3D printed concrete. For ordinary portland cement (OPC)–based systems, it is established that MHEC prolongs the dormant period and reduces the rate of calcium silicate hydrate (C─ S─ H) precipitation while reducing the early and later age strength. However, such an investigation is absent for limestone calcined clay (LC2)–based systems. The LC2-based 3D printable mixes are reported to require a smaller amount of VMA for improving the extrudability and buildability. The study aims to understand the interaction of MHEC with the binder system containing OPC and LC2. MHEC increases the water retention capacity of the mix while absorbing water and forming leaflike structures at lower dosages and wool-ball-like structures at higher dosages. Moreover, for a 45% LC2 content in binder, the hydration kinetics is not affected by 0.03% dosage, but an alteration of phase composition of carboaluminates is observed. For higher dosages of 0.06%, the hydration kinetics as well as phase composition are affected. In contrast, the connected porosity and pore size distribution measured as an indication of microstructure, using mercury intrusion porosimetry, water porosity, and formation factor, remain unaffected by the addition of MHEC. The reduction in porosity due to the addition of MHEC may not be observed due to the deposition of the agglomerated MHECs as weak inclusions in the pores. The change in the replacement percentage of LC2 is observed to affect the hydration kinetics of OPC-MHEC systems. For 100% OPC, the MHEC increases the dormant time and reduces the rate of C─ S─ H precipitation. However, for higher LC2 content mixes, the dormant period and C─ S─ H precipitation rate are not influenced, but calcium aluminosulfate formation (second peak) is delayed due to a change in the dissolution mechanism. However, for all the replacement percentages of LC2, the compressive strength is reduced with the addition of MHEC. | |
