Abstract
Abstract This paper studied the mechanical performance of aerated concrete and its bonding performance with glass fiber grille, and explores the influence of aluminum powder and aluminum powder on mechanical performance and bonding performance. The results showed that the compressive strength of aerated concrete decreased with the increase of aluminum powder content, while it first increased and then decreased with the increase of ferrosilicon alloy powder content. The failure modes of specimens were fiber fracture failure, and the fibers were not pulled out from the aerated concrete. It can provide a theoretical basis for the application of aerated concrete and glass fiber in engineering.
Highlights
At present, the prefabricated building structure system has been vigorously promoted
This paper studied the mechanical performance of aerated concrete and its bonding performance with glass ber grille, and explores the in uence of aluminum powder and aluminum powder on mechanical performance and bonding performance
The purpose of this paper is to investigate the mechanical performance of aerated concrete and its bonding performance with glass ber grill, obtain the in uence of aluminum powder and ferrosilicon alloy powder on cubic compressive strength on cubic compressive strength of aerated concrete, and obtain the bonding force between aerated concrete and glass ber grill
Summary
The prefabricated building structure system has been vigorously promoted. The results showed that the compressive strength of aerated concrete decreased with the increase of aluminum powder content, while it rst increased and decreased with the increase of ferrosilicon alloy powder content. Good bonding performance between glass ber grille and aerated concrete is the premise of their joint work [17].
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