1. Field and Numerical Study of the Bearing Capacity of Pre-Stressed High-Strength Concrete (PHC)-Pipe-Pile-Reinforced Soft Soil Foundations with Tie Beams.
- Author
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Yao, Yunlong, Hong, Baoning, Liu, Xin, Wang, Guisen, Shao, Zhiwei, and Sun, Dongning
- Subjects
FINITE element method ,INFRASTRUCTURE (Economics) ,CIVIL engineering ,GEOLOGICAL research ,CONCRETE ,COMPOSITE structures ,MASS-wasting (Geology) - Abstract
Featured Application: Landslide-prone road sections pose a continuous challenge in civil engineering and infrastructure development. This study presents an innovative solution—a composite roadbed structure that utilizes PHC pipe piles and tie beams. The findings demonstrate that this approach effectively reduces post-construction settlement and lateral displacement, thereby enhancing roadbed stability. Furthermore, the structure exhibits excellent construction resilience in controlling settlement and preventing sliding. The research holds promise for widespread implementation in landslide-prone areas, allowing engineers to customize roadbed support based on geological conditions and project requirements. The practical insights gained from this study offer valuable guidance for future applications. Pre-stressed high-strength concrete pipe piles (PHC pipe piles) have been widely used in actual soft foundation treatment projects due to their reliable quality, fast construction, assembly line production, and environmental friendliness. However, large-scale slip damage still occurs in construction projects. In order to reduce and avoid such accidents, a highway in Guangdong (section K31+100~K31+388) was taken as an example for this study. Plaxis 2D software (V22.01.00) was used to establish a PHC pipe pile composite roadbed model and investigate the effects of tie beam form, pile lengths, pile spacings, pile verticality, and embankment filling loading modes on the settlement and stability of the composite roadbed. The results show that the original treatment plan, which had the form of a PHC pipe pile with caps, had a low horizontal bearing capacity and a poor anti-disturbance ability, leading to the occurrence of a landslide accident. A comparison of different structural forms revealed that the longitudinal and transverse tie beam form was the most stable, followed by the transverse tie beam form, longitudinal tie beam form, PHC pipe pile form with caps, and PHC pipe pile form without caps. Compared to the structural form of PHC pipe piles with pile caps, the stabilities of the transverse tie beam form and the longitudinal tie beam form were improved by 42.47% and 38.61%, respectively, while that of the longitudinal and transverse tie beam form was improved by 50.87%. The application of longitudinal and transverse tie beams effectively reduced the settlement of the composite roadbed, as confirmed by both measured data and finite element analysis. This structure achieved the desired vertical settlement control and lateral anti-slip effects. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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