Reaction of Portland cement clinker with gaseous SO₂ to form alite-ye'elimite clinker

In this paper, an innovative method was proposed to synthesize an alite-ye'elimite clinker by adopting a secondary heat treatment step in a different sintering atmosphere after a traditional Portland cement (PC) clinker has been heated up at 1450 °C. It was found that a pure gaseous SO₂ or mixed gas containing the gaseous SO₂ used facilitated the decomposition of C₃S and the consumption of C₃A in the PC clinker. Simultaneously, anhydrite (CaSO₄), ye'elimite (3CaO·3Al₂O₃·CaSO₄, C₄A₃$) and ternesite (4CaO·2SiO₂·CaSO₄, C₅S₂$) coexisted in the alite-ye'elimite clinker, resulting from gas-solid reactions during sintering. The experimental results also showed that the compressive strength of the synthesized alite-ye'elimite cement was higher than that of PC. Moreover, its setting times were shorter than that of PC.