Fabrication and properties of slag-based geopolymer syntactic foams containing hollow glass microspheres

High porosity and high strength slag-based geopolymer syntactic foams were achieved by a combined route consisting in both embedding hollow glass microspheres and direct foaming with H2O2 and a surfactant. The effect of the hollow glass microspheres content on the pore morphology, porosity, density, mechanical strength, and thermal conductivity was investigated. Results showed that the hollow glass microspheres were dispersed homogenously and bonded well with the geopolymer matrix.

Automated summary

In this study, high porosity and high strength slag-based geopolymer syntactic foams were achieved through a combination of embedding hollow glass microspheres and direct foaming with H2O2 and a surfactant. The addition of hollow glass microspheres had a significant impact on the pore morphology, porosity, density, mechanical strength, and thermal conductivity of the foam material, leading to improved overall performance. The results indicated that the hollow glass microspheres were uniformly dispersed and well bonded with the geopolymer matrix.