Litcius/Paper detail

Clinker mineral formation and thermal decomposition of calcium carbonates in carbonated tobermorites: Mechanism of CO2 release in low-temperature ranges

Ryusei Igami, Go Igarashi, Abudushalamu Aili, Daisuke MINATO, Ryo Kurihara, Ippei Maruyama

2025Cement and Concrete Research32 citationsDOIOpen Access PDF

Abstract

Thermalgravimetric analysis (TGA) has been widely used to quantify the amount of fixed CO 2 in cementitious materials. It was well-known that calcium carbonates in cementitious materials decomposed not only around 700–800 °C but also in lower-temperature ranges (around 300–600 °C). However, the mechanism of CO 2 release in low-temperature ranges was not clarified. This study investigated the semi-dry carbonation of synthesized tobermorite under different relative humidities and a 1.0 % CO 2 concentration to reveal the mechanism of CO 2 release in low-temperature ranges. TGA revealed that the decomposition of calcium carbonates occurred at three different temperature ranges. The peak around 700–800 °C was attributed to the decomposition of calcite transformed from vaterite and aragonite. The peak around 400–600 °C was attributed to the solid-state reaction of vaterite and aragonite with silica gel, resulting in CO 2 release. The peak around 300–400 °C was attributed to the decomposition of amorphous carbonate minerals.

Topics & Concepts

MineralClinker (cement)CalciumThermal decompositionMechanism (biology)Calcium carbonateMaterials scienceMineralogyDecompositionCalciteChemical engineeringCarbon dioxideCementChemistryMetallurgyComposite materialPortland cementOrganic chemistryEngineeringEpistemologyPhilosophyRecycling and utilization of industrial and municipal waste in materials productionConcrete and Cement Materials ResearchBuilding materials and conservation