Investigating the Mechanical and Durability Characteristics of Fly Ash Foam Concrete

Abstract: Although fly ash foam concrete (FAFC) is lightweight, heat-retaining, and insulating, its application options are constrained by its weak construction and short lifespan. The effects of various dosage ratios of the foaming agent (i.e., hydrogen peroxide), silica fume, and polypropylene fiber on the dry density, compressive strength, thermal insulation performance, pore structure parameters, and durability of FAFC were analyzed in this study, which sought to address the issues of low strength and low durability… Show more

“…The compressive strength and toughness increased by 66.8% and 46.7%, respectively. Li et al [37] found that the freeze-thaw damage of fly ash foam concrete (FAFC) is essentially the frost heave damage of the pore wall, and the addition of fiber enhances the compactness of the cement paste, which increases the ability to resist the expansion pressure of the pore wall during low-temperature freezing. This reduced the generation of hole-wall cracks caused by freezing expansion.…”

Study on geopolymer recycled foam concrete based on waste wood flour and its engineering performance

“…The compressive strength and toughness increased by 66.8% and 46.7%, respectively. Li et al [37] found that the freeze-thaw damage of fly ash foam concrete (FAFC) is essentially the frost heave damage of the pore wall, and the addition of fiber enhances the compactness of the cement paste, which increases the ability to resist the expansion pressure of the pore wall during low-temperature freezing. This reduced the generation of hole-wall cracks caused by freezing expansion.…”

Study on geopolymer recycled foam concrete based on waste wood flour and its engineering performance

Field study on thermal behavior of lightweight cellular concrete as pavement subgrade protection in cold regions

Preparation and performance research of ecological concrete using waste wood