倾斜地层土工加筋路堤列车荷载动力响应特性模型试验研究
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作者:
作者单位:

1.重庆大学 土木工程学院;2.山地城镇建设与新技术教育部重点实验室,重庆 400045

作者简介:

丁选明,(1980- ),男,教授,博士生导师,主要从事土动力学与工程振动研究,E-mail:dxmhhu@163.com。
DING Xuanming (1980- ), professor, doctorial supervisor, main research interests: soil dynamics and engineering vibration, E-mail: dxmhhu@163.com.

通讯作者:

欧强(通信作者),男,博士,E-mail:ouq126@cqu.edu.cn。

中图分类号:

U213.1

基金项目:

国家自然科学基金(52108299、52178312、U2268213)


Model test study on dynamic response characteristics of geosynthetic-reinforced embankments under train loads in inclined stratum
Author:
Affiliation:

1.School of Civil Engineering;2.Key Laboratory of New Technology for Construction of Cities in Mountain Area, Chongqing University, Chongqing 400045, P. R. China.

Fund Project:

National Natural Science Foundation of China (Nos. 52108299, 52178312, U2268213)

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    摘要:

    在山区修建高速铁路时,由于山区地形地质条件复杂,容易引起山区铁路路堤的整体或局部破坏。随着土工加筋技术的发展,越来越多的山区铁路路堤采用土工合成材料加筋方式来解决路堤的变形破坏问题,但倾斜地层条件下土工加筋路堤的动力响应特性和变形规律尚不明确。基于有倾斜基岩与无倾斜基岩加筋铁路路堤的模型对比试验,研究倾斜地层条件下土工加筋铁路路堤的动力响应特性,对土工加筋铁路路堤的竖向位移、加速度、动土压力及土工格栅应变的变化规律进行对比分析,探究倾斜地层条件下土工加筋铁路路堤的动力响应特性。结果表明:有倾斜基岩路堤的竖向峰值位移略大于无倾斜基岩路堤,且随着加载频率的增加,路堤的竖向峰值位移均有所减小。有倾斜基岩路堤的竖向峰值加速度与竖向峰值动土压力明显大于无倾斜基岩路堤,且两者的竖向峰值加速度与峰值动土压力均随加载频率的增大而增大,随埋深的增加而减小。当埋深相同时,路堤加载中心下方土体的竖向峰值加速度与峰值动土压力最大,远离基岩侧次之,靠近基岩侧最小。路堤格栅的峰值应变均随格栅埋深的增加而减小,且靠近路堤顶部的两层格栅衰减幅度较小,而在相同加载频率下,倾斜基岩加筋路堤的格栅峰值应变约为无倾斜基岩加筋路堤的两倍。

    Abstract:

    It is generally inevitable that the construction of high-speed railways induces overall or local damage to railway embankments in mountainous areas owing to complex topographic and geological conditions. With the development of geotechnical reinforcement techniques, more and more mountain railway embankments adopt geosynthetic reinforcement to solve the deformation and failure of embankments. However, the dynamic response characteristics and deformation patterns of reinforced embankments under inclined stratum conditions are still ambiguous. Based on comparative model tests of reinforced railway embankments with and without inclined bedrock, this paper investigates the dynamic response characteristics of geosynthetic-reinforced railway embankments under inclined stratum conditions. A comparative analysis of the evolution patterns of the vertical displacement, acceleration, dynamic soil pressure, and geogrid strains of geosynthetic-reinforced railway embankments was conducted. The results show that the peak vertical displacement of the inclined bedrock embankment is slightly larger than that of the uninclined one, and the peak vertical displacements of both cases decrease with the increase of loading frequency. The peak vertical acceleration and peak vertical dynamic soil pressure of the inclined bedrock embankment are obviously larger than those of the uninclined one, and both increase with the increase of loading frequency and decrease with the increase of embedment depth. When the embedment depth is the same, the soil below the loading center of the embankment has the largest peak vertical acceleration and peak dynamic soil pressure, followed by the side away from the bedrock, and the side near the bedrock has the smallest values. The peak strains of the embankment geogrids all decrease with increasing embedment depth of the geogrids, and the two layers of geogrids near the top of the embankment decay less, whereas the peak strain of the geogrids of the inclined bedrock-reinforced embankment is about twice as much as that of the uninclined bedrock-reinforced embankment at the same loading frequency.

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丁选明,任寄瑜,欧强,赵津桥.倾斜地层土工加筋路堤列车荷载动力响应特性模型试验研究[J].土木与环境工程学报(中英文),2026,48(4):97-107. DING Xuanming, REN Jiyu, OU Qiang, ZHAO Jinqiao. Model test study on dynamic response characteristics of geosynthetic-reinforced embankments under train loads in inclined stratum[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2026,48(4):97-107.10.11835/j. issn.2096-6717.2024.107

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  • 收稿日期:2024-08-16
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  • 在线发布日期: 2026-07-08
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