| 不同加筋形式的沿海高速公路拓宽路堤现场试验与数值分析 |
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| 引用本文: | 骆俊晖,祁航翔,王家全,畅振超,吴勇. 不同加筋形式的沿海高速公路拓宽路堤现场试验与数值分析[J]. 科学技术与工程, 2023, 23(8): 3455-3465 |
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| 作者姓名: | 骆俊晖 祁航翔 王家全 畅振超 吴勇 |
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| 作者单位: | 广西北投交通养护科技集团有限公司;广西科技大学土木建筑工程学院;广西交通设计集团有限公司 |
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| 基金项目: | 国家自然科学(41962017);广西自然科学基金重点项目(2022GXNSFDA035081);广西高等学校高水平创新团队及卓越学者计划项目(桂教人才〔2020〕6号);广西研究生教育创新计划项目(YCSW2021310) |
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| 摘 要: | 为了了解沿海高速公路路堤拓宽过程中的受力变形规律,通过拓宽路堤现场试验与数值分析,分析了施工过程中两种不同加筋形式对新路堤深层侧向位移、地表累计沉降、格栅累计变形的影响并通过数值模拟进一步探讨了路堤拓宽过程中的受力变形规律。结果表明:随着填土高度的增加,K2130+590段和K2130+620段的深层侧向位移、地表累计沉降、格栅累计变形也随之增大,其中K2130+590段路堤顶部、底部的最大侧向位移与K2130+620段相比分别减小了31.83%、76.98%,且路中处最大沉降与K2130+620段相比减小了40.51%,而两个试验段格栅累计变形相差不大,基本保持一致;通过综合考虑K2130+590段与K2130+620段的深层侧向位移、地表累计沉降及格栅累计变形,建议采用格栅与格室的组合加筋形式。同时发现最大剪应变增量随着新路堤填土高度的增加而增大,新旧路堤最有可能沿台阶处发生滑移破坏,故为了拓宽路堤的稳定与安全,建议增强新旧路堤台阶处的连接强度,以此保证加筋新旧路堤结构的整体稳定性。
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| 关 键 词: | 现场试验 路堤拓宽 侧向位移 地表沉降 数值分析 |
| 收稿时间: | 2022-06-06 |
| 修稿时间: | 2023-01-04 |
Widening embankment of coastal highway with different reinforcement forms field test and numerical analysis |
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| Luo Junhui,Qi Hangxiang,Wang Jiaquan,Chang Zhenchao,Wu Yong. Widening embankment of coastal highway with different reinforcement forms field test and numerical analysis[J]. Science Technology and Engineering, 2023, 23(8): 3455-3465 |
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| Authors: | Luo Junhui Qi Hangxiang Wang Jiaquan Chang Zhenchao Wu Yong |
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| Affiliation: | Guangxi Beitou Transportation Maintenance Technology Group Co., Ltd. |
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| Abstract: | In order to understand the stress and deformation law in the process of embankment widening of coastal highway, through the field test and numerical analysis of embankment widening, the influence of two different reinforcement forms on the deep lateral displacement, surface cumulative settlement and geogrid cumulative deformation of new embankment in the construction process is analyzed, and the stress and deformation law in the process of embankment widening is further discussed through numerical simulation. The results show that with the increase of filling height, the deep lateral displacement, surface cumulative settlement and grid cumulative deformation of K2130 + 590 section and K2130 + 620 section increase. The maximum lateral displacement at the top and bottom of the embankment in K2130 + 590 section decreases by 31.83% and 76.98% respectively compared with that in K2130 + 620 section, and the maximum settlement in the middle of the road decreases by 40.51% compared with that in K2130 + 620 section. The cumulative deformation of the geogrid in the two test sections is basically consistent. By comprehensively considering the deep lateral displacement, surface cumulative settlement and geogrid cumulative deformation of K2130 + 590 and K2130 + 620, it is suggested to adopt the combined reinforcement form of geogrid and geocell. At the same time, it is found that the maximum shear strain increment increases with the increase of the filling height of the new embankment, and the old and new embankments are most likely to slip along the steps. Therefore, in order to broaden the stability and safety of the embankment, it is recommended to enhance the connection strength at the steps of the old and new embankments, so as to ensure the overall stability of the reinforced old and new embankment structures. |
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| Keywords: | field test embankment widening lateral displacement surface subsidence numerical analysis |
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