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Experimental Study on Fracture Energy of Graphene Oxide Recycled Concrete

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DOI: 10.23977/jceup.2023.050405 | Downloads: 13 | Views: 345

Author(s)

Kai Guo 1, Mingzhe Zhang 1

Affiliation(s)

1 School of Civil Engineering, Shenyang Jianzhu University, Shenyang, Liaoning, China

Corresponding Author

Kai Guo

ABSTRACT

To explore the effects of the replacement rate of recycled aggregate, the content of graphene oxide (GO) and GO oxygen content on the fracture performance of recycled concrete (RC). In this paper, three point bending method was used to study the fracture property of GO-RC. The results show that the use of recycled aggregate will reduce the fracture property of RC, and the fracture property of RC will gradually improve with the increase of GO content. With the same amount of GO, the strengthening effect of 20% GO with oxygen is better than 40% GO with oxygen. The fracture energy and fracture toughness increase with the addition of GO, so GO plays an important role in improving the fracture performance of RC.

KEYWORDS

Graphene oxide, recycled concrete, fracture property, three-point bending method

CITE THIS PAPER

Kai Guo, Mingzhe Zhang, Experimental Study on Fracture Energy of Graphene Oxide Recycled Concrete. Journal of Civil Engineering and Urban Planning (2023) Vol. 5: 41-47. DOI: http://dx.doi.org/10.23977/jceup.2023.050405.

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