Author(s)

Hongwei Liu ¹

Affiliation(s)

¹ Qinghai Nationalities University, School of Civil Engineering and Transportation, Xining 810007, China

Corresponding Author

Hongwei Liu

ABSTRACT

Fiber reinforced composite is a kind of material with high mechanical strength and high performance based on the mixture of fiber material and the base material, which can be widely used in bridge engineering, construction engineering and underground engineering. Because of its high tensile strength, the interface strength of FRP and concrete is insufficient, which is easy to cause interface spalling and affect the bond of the whole structural engineering. This paper mainly analyzes the spalling mechanism and bond strength of fiber reinforced composites, so as to give reference and basis for many engineering construction and application in China.

KEYWORDS

Fiber reinforced composites, FRP spalling mechanism, Bond strength

CITE THIS PAPER

Hongwei Liu, Research on Spalling Mechanism and Bond Strength Evaluation of FRP. Art and Performance Letters (2022) 3: 1-4. DOI: http://dx.doi.org/10.23977/artpl.2022.030101.

REFERENCES

[1] Zhang Feng, Gao Xiaohua, Gao Lei, Wu Yufei, Zhu Shichao. A review of concrete beams strengthened with HB-FRP [J / OL]. Journal of Transportation Engineering. 2021 (1): 11.
[2] Zhang Jian, Li Bin, Zhang Xuezhi. Experimental study on Reinforced Concrete Beams Strengthened with prestressed FRP plates [J]. Journal of Hunan Institute of Technology (NATURAL SCIENCE EDITION), 2020,33 (04): 45-49.
[3] Xu Chenghui, Xu Xinsheng, Wu Yufei. Spalling mechanism and bond strength evaluation of carbon fiber reinforced composites [A]. Computational Mechanics Committee of Chinese Society of Mechanics. Proceedings of China computational Mechanics Conference 2014 and the Third Qian Lingxi Computational Mechanics Prize Awarding Conference [C]. Computational Mechanics Committee of Chinese Society of Mechanics: Chinese Society of Mechanics, 2014:5.
[4] Zhu Wenmo, Li Gang, Yang Xiaoping, Li Qiang. Development of prediction model for longitudinal compressive strength of continuous fiber reinforced resin composites and its influencing factors [J]. Journal of Composite Materials, 2020,37 (01): 1-15.

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