Understanding the setting and hardening process of wollastonite-based brushite cement. Part 2: Influence of the boron and aluminum concentrations in the mixing solution

• Published in: Cement and concrete research Vol. 140; p. 106288
• Main Authors: Laniesse, Priscillia, Cau Dit Coumes, Céline, Le Saout, Gwenn, Mesbah, Adel
• Format: Journal Article
• Language: English
• Published: Elmsford Elsevier Ltd 01.02.2021; Elsevier BV; Elsevier
• Subjects: Aluminum; Aluminum phosphate; Borax; Boron; Chemical precipitation; Chemically bonded ceramics; Compressive strength; Engineering Sciences; Hydration; Hydration products; Macroporosity; Materials; Mechanical properties; Microstructure; Phosphoric acid; Setting (hardening); Wollastonite; Compressive strength; Hydration; Microstructure; Chemically bonded ceramics; Hydration products
• ISSN: 0008-8846; 1873-3948
• DOI: 10.1016/j.cemconres.2020.106288

The mixing solution of wollastonite-based brushite cement is a phosphoric acid solution containing metallic cations and borax. This work complements a previous study devoted to the influence of the H3PO4 concentration, Ca/P and liquid-to-solid (l/s) ratios on the setting and hardening process of the binder by providing new insight into the role of aluminum and boron. Boron retards the setting and decreases the heat released during the process. It also contributes to reduce the macroporosity of the hardened material but yields to poor compressive strength. With aluminum in the mixing solution, the mechanical properties are greatly improved thanks to the precipitation of an amorphous aluminophosphate which increases the density of the cement matrix. But aluminum alone leads to fast setting. A joint addition of boron and aluminum to the mixing solution makes it possible to get a material with optimized properties both in fresh and hardened states.