Abstract
Abstract In order to explore the engineering application potential of coal gangue-based geopolymer concrete (CGGPC), this article formulated the fiber-reinforced coal gangue-based geopolymer concrete (FRCGGPC). The mechanical properties of the specimens were tested to analyze the effects of different types and dosing amounts of fibers on the mechanical properties of CGGPC. The microscopic morphology of the specimens was observed by scanning electron microscopy (SEM) to analyze the strengthening mechanism of fibers on the mechanical properties of the CGGPC. The experimental results show that the splitting tensile strength of FRCGGPC can be improved obviously, but the improvement of compressive strength is not obvious. The control groups containing steel fiber (SF) and polyester fiber (PF) had peaks in their compressive strength. Under the same dosage, the effect of SF and PF on the splitting tensile strength of FRCGGPC is better than basalt fiber. The results of SEM analysis show that within a certain range of dosage, the fiber is closely combined with the matrix, which has a good force transmission effect and strengthens the matrix material. When the fiber dosage is too much, it is easy to agglomerate, which leads to the decrease in the mechanical properties of the specimens.
Highlights
In order to explore the engineering application potential of coal gangue-based geopolymer concrete (CGGPC), this article formulated the fiber-reinforced coal gangue-based geopolymer concrete (FRCGGPC)
The results show that basalt fiber (BF) had a positive effect, especially with the best performance when 0.8–1.2% is used [34]
The difference between the failure morphology of CGGPC with different fibers was not obvious, the specimens all showed a certain degree of lateral expansion, and a small number of long cracks occurred on the four side surfaces, accompanied by a small amount of debris falling
Summary
Abstract: In order to explore the engineering application potential of coal gangue-based geopolymer concrete (CGGPC), this article formulated the fiber-reinforced coal gangue-based geopolymer concrete (FRCGGPC). The fiber-reinforced CGGPC (FRCGGPC) reflects the idea of composite design, which retains the original characteristics of high compressive strength of concrete, and greatly increases its crack resistance, toughness, and impermeability, making it more in line with the requirements of new construction materials. By comparing the mechanical property strengthening effects of incorporating different fibers on CGGPC and exploring their differences in microstructure, we can provide a reference for further selective or composite applications of engineering fiber materials. The mechanical properties test and microstructure analysis were carried out, and the effects of different types and dosages of fibers on the mechanical properties of the GPC specimens were compared, and combined with scanning electron microscopy (SEM) its mechanical strengthening mechanism was analyzed. The purpose is to explore the engineering performance and application potential of the CGGPC, and to provide research cases and data support for the development and promotion of the CGGPC
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
