Portlandite solubility and Ca2+ activity in presence of gluconate and hexitols

TL;DR

This study examines how gluconate and hexitols affect calcium speciation and portlandite solubility at high pH, revealing complex formation strengths and implications for cement hydration processes.

Contribution

It provides new insights into calcium-organic complex formation and their influence on portlandite solubility, enhancing understanding of cement chemistry.

Findings

Gluconate forms the strongest complexes with calcium.

Sorbitol and other hexitols form weaker complexes.

Gluconate complexes dominate in portlandite presence.

Abstract

The current paper investigates the impact of gluconate, D-sorbitol, D-mannitol and D-galactitol on calcium speciation at high pH values by i) solubility measurements of portlandite (Ca(OH)2) and ii) potentiometric titration measurements of calcium salt solutions. Thermodynamic modeling was used to fit the chemical activities of Ca2+ and OH- ions and thus to determine the strength and kind of the different Ca-organic-hydroxide complexes. The strength of complex formation with Ca decreases in the order gluconate >> sorbitol > mannitol > galactitol, which follows the same order as sorption on portlandite. Heteropolynuclear gluconate complexes with calcium and hydroxide dominate the Ca-speciation in the presence of portlandite, while for sorbitol ternary CaSorbOH+ complexes were dominant under alkaline conditions. We expect that these results will help in better understanding the influence of gluconate and hexitols on the hydration of alite and Portland cement.