Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement

Chen, Xueling; Wang, Lifeng

doi:10.14256/JCE.3547.2022

Građevinar, Vol. 76 No. 03., 2024.

Preliminary communication

https://doi.org/10.14256/JCE.3547.2022

Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement

Xueling Chen
Lifeng Wang

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APA 6th Edition

Chen, X. & Wang, L. (2024). Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement. Građevinar, 76 (03.), 247-256. https://doi.org/10.14256/JCE.3547.2022

MLA 8th Edition

Chen, Xueling and Lifeng Wang. "Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement." Građevinar, vol. 76, no. 03., 2024, pp. 247-256. https://doi.org/10.14256/JCE.3547.2022. Accessed 28 Jun. 2024.

Chicago 17th Edition

Chen, Xueling and Lifeng Wang. "Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement." Građevinar 76, no. 03. (2024): 247-256. https://doi.org/10.14256/JCE.3547.2022

Harvard

Chen, X., and Wang, L. (2024). 'Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement', Građevinar, 76(03.), pp. 247-256. https://doi.org/10.14256/JCE.3547.2022

Vancouver

Chen X, Wang L. Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement. Građevinar [Internet]. 2024 [cited 2024 June 28];76(03.):247-256. https://doi.org/10.14256/JCE.3547.2022

IEEE

X. Chen and L. Wang, "Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement", Građevinar, vol.76, no. 03., pp. 247-256, 2024. [Online]. https://doi.org/10.14256/JCE.3547.2022

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APA 6th Edition

Chen, X. & Wang, L. (2024). Temperature–water–load coupling study on stress characteristics of BFRP–CRCP pavement. Građevinar, 76 (03.), 247-256. https://doi.org/10.14256/JCE.3547.2022

MLA 8th Edition

Chicago 17th Edition

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Abstract

The stress characteristics of continuously reinforced concrete pavements with basalt fibre-reinforced bars (BFRP–CRCP) were investigated using the temperature–water–load coupling theory, based on the characteristics of frozen soil in Northeast China, combined with existing research experience, and taking the foundation thaw settlement effect in Northeast China as a starting point. The COMSOL finite element software was used to create a finite element model of the BFRP–CRCP subgrade and pavement China. Several common affecting elements, such as pavement thickness, reinforcement ratio, and concrete modulus, were examined, and appropriate recommendations for BFRP–CRCP pavement material selection were made. Further, the stress characteristics of the BFRP–CRCP pavement structure combination were investigated utilising three common structural forms of pavement in the region and focusing on distinct contributing elements. It serves as a model for BFRP–CRCP pavement construction that considers settlement deformation.

Keywords

frozen soil; BFRP–CRCP; settlement deformation; pavement

Hrčak ID:

317607

URI

https://hrcak.srce.hr/317607

Publication date:

20.5.2024.

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Građevinar, Vol. 76 No. 03., 2024.

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