What question did this study set out to answer?

The aim is to explore how different dosages of composite activators affect the performance of foam concrete.

April 19, 2026Open Access

Effect of a Composite Activator on Comprehensive Performance of Alkali-Activated Foam Concrete

Key Points

The aim is to explore how different dosages of composite activators affect the performance of foam concrete.
Examined the influence of NaOH and Na2SiO3 blend as composite activators on foam concrete.
Analyzed the relationship between microstructure and macroperformance during testing.
Investigated the impact of varying activator dosages on stability, compressive strength, and drying shrinkage.
Excessive activator dosages led to decreased stability and compressive strength of foam concrete.
Appropriate activator amounts significantly improved stability and reduced settlement rates.
Optimized pore size distribution and enhanced mechanical properties were observed during hardening.

Abstract

This study investigates the synergistic mechanism between composite activators (NaOH and Na2SiO3 blend) and the microstructure–macroperformance relationship of foam concrete, focusing on the influence of different activator dosages on foam concrete stability, compressive strength, and drying shrinkage behavior. Experimental results indicate that excessively high activator dosages impair foam concrete stability, reduce compressive strength, and accelerate drying shrinkage. However, an appropriate amount of composite activator effectively improves the stability of freshly mixed foam concrete, significantly reducing settlement rates. During the hardening stage, it optimizes pore size distribution, promotes the formation of denser hydration products, and enhances the mechanical properties of the pore framework, thereby synergistically improving the mechanical performance of foam concrete.

Effect of a Composite Activator on Comprehensive Performance of Alkali-Activated Foam Concrete

Key Points

Abstract

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