[1]付宏渊,邱 祥,李光裕,等.降雨入渗条件下炭质泥岩路堤动态稳定性[J].长安大学学报(自然科学版),2017,37(01):33-42.
 FU Hong-yuan,QIU Xiang,LI Guang-yu,et al.Dynamic stability of carbonaceous mudstone embankment under rainfall infiltration[J].Journal of Chang’an University (Natural Science Edition),2017,37(01):33-42.
点击复制

降雨入渗条件下炭质泥岩路堤动态稳定性()
分享到:

长安大学学报(自然科学版)[ISSN:1006-6977/CN:61-1281/TN]

卷:
第37卷
期数:
2017年01期
页码:
33-42
栏目:
道路工程
出版日期:
2017-01-31

文章信息/Info

Title:
Dynamic stability of carbonaceous mudstone embankment under rainfall infiltration
作者:
付宏渊邱 祥李光裕曾 铃刘新喜
1. 长沙理工大学 道路结构与材料交通行业重点实验室,湖南 长沙 410114;2. 长沙理工大学 交通运输工程学院,湖南 长沙 410114;3. 长沙理工大学 土木与建筑学院,湖南 长沙 410114
Author(s):
FU Hong-yuan QIU Xiang LI Guang-yu ZENG Ling LIU Xin-xi
1. Key Laboratory of Road Structure and Material of Ministry of Transport, Changsha University of Science & Technology, Changsha 410114, Hunan, China; 2. School of Traffic and Transportation Engineering, Changsha University of Science & Technology, Changsha 410114, Hunan, China; 3. School of Civil Engineering and Architecture, Changsha University of Science & Technology, Changsha 410114, Hunan, China
关键词:
道路工程炭质泥岩路堤降雨入渗渗透力软化效应非饱和效应稳定性分析
Keywords:
road engineering carbonaceous mudstone embankment rainfall infiltration seepage force softening effect unsaturated effect stability analysis
分类号:
U416.12
文献标志码:
A
摘要:
为了研究炭质泥岩路堤在降雨入渗条件下的稳定性,在分析路堤稳定性影响因素的基础上,结合饱和非饱和渗流及稳定性分析基本理论,提出了一种能同时考虑路堤内部饱和度、孔隙水压力、渗透力、软化及非饱和效应的路堤稳定性分析方法,并利用该方法对降雨条件下路堤渗流场及稳定性的变化规律进行了数值计算。研究结果表明:提出的路堤稳定性动态计算方法具有较强的实用性,能够综合考虑多因素影响下的炭质泥岩路堤稳定性;降雨期间,炭质泥岩路堤内部地下水位逐渐抬升,饱和区渗透力合力先减小,后增大;降雨停止后,路堤内部地下水位迅速降低,饱和区渗透力合力逐渐减小;降雨条件下,炭质泥岩路堤坡面附近非饱和区土体的渗流速度与其孔隙水压力、饱和度变化成正比,饱和区土体沿路堤内部水平向外的渗流速度、渗透力与地下水位变化成正比,沿路堤上部竖直向下的渗流速度、渗透力与地下水位变化成反比;降雨过程中,炭质泥岩路堤安全系数先降低,再升高,后持续降低;降雨停止后,安全系数先迅速恢复,后趋于平缓;降雨初期,路堤饱和区塑性带先扩张,后消散,过坡脚的塑性带基本不变,降雨后期,路堤饱和区塑性带与过坡脚的塑性带均持续增加。降雨终止后,路堤饱和区塑性带与过坡脚的塑性带均逐渐消散。
Abstract:
In order to study the carbonaceous mudstone embankment stability under the condition of rainfall infiltration, this paper analyzed the factors influencing the stability of embankment, and proposed a stability analyzing method that can consider the saturation, pore water pressure, seepage force, soften and unsaturation effect. Combing the saturatedunsaturated seepage and stability theory, this paper used the proposed method to calculate the changes of embankment seepage field and stability in rainfall condition. The results show that the dynamic stability calculation method presented in this paper has strong practicality, which can consider the stability of carbonaceous mudstone embankment influenced by multiple factors. During the period of rainfall, the underground water level inside the carbonaceous mudstone embankment rises gradually, the resultant force of penetration decreases first and increases later. After rain, the underground water level inside the embankment reduces rapidly, the resultant force of penetration decreases gradually. Under the condition of rainfall, the seepage velocity of soil in unsaturated zone near the carbonaceous mudstone embankment slope is directly proportional to the change of its pore water pressure and saturation, the seepage velocity and penetration force of soil in saturated zone along the inside of embankment horizontally outward is directly proportional to the change of the underground water level under embankment slope surface, the seepage velocity and penetration force of soil in saturated zone along the upper part of embankment vertically downward is inversely proportional to the change of the underground water level under embankment slope surface. In the process of rainfall, the stability safety factor of the carbonaceous mudstone embankment decreases first, then increases and continues to reduce again. After the rain, the stability safety factor first recovers quickly, then levels off. During the early period of rainfall, the plastic tape of saturated zone expands first and then dissipates, and the plastic tape over the slope foot keeps unchanging. During the later period of rainfall, the plastic tape of saturated zone and the plastic tape over the slope foot continue to expand. After the rain, the plastic tape of saturated zone and the plastic tape over the slope foot gradually dissipate.

相似文献/References:

[1]武建民,祝伟,马士让,等.应用加权密切值法评价基质沥青抗老化性能[J].长安大学学报(自然科学版),2012,32(01):0.
[2]张宜洛,袁中山.SMA混合料结构参数的影响因素[J].长安大学学报(自然科学版),2012,32(01):0.
[3]陈璟,袁万杰,郝培文,等.微观指标对沥青热稳定性能的影响[J].长安大学学报(自然科学版),2012,32(01):0.
[4]周兴业,刘小滔,王旭东,等.基于轴载谱的沥青路面累计当量轴次换算[J].长安大学学报(自然科学版),2012,32(01):0.
[5]李祖仲,王伯禹,陈拴发,等.轴载对复合式路面应力吸收层荷载应力的影响[J].长安大学学报(自然科学版),2012,32(01):0.
[6]关博文,刘开平,陈拴发,等.水镁石纤维路面混凝土路用性能[J].长安大学学报(自然科学版),2012,32(01):0.
[7]翁效林,王玮,张留俊,等.拓宽路基荷载下管桩复合地基沉降变形模式[J].长安大学学报(自然科学版),2012,32(01):0.
[8]穆柯,王选仓,柳志军,等.基于非饱和渗流原理的路基含水率预估[J].长安大学学报(自然科学版),2012,32(01):0.
[9]李振霞,陈渊召.不同类型半刚性基层材料性能的试验与分析[J].长安大学学报(自然科学版),2012,32(01):0.
[10]马 骉,马 晋,周宇鹏.沥青混合料降温收缩断裂特性[J].长安大学学报(自然科学版),2012,32(03):1.
 MA Biao,MA Jin,ZHOU Yu-peng.Cooling shrinkage fracture characteristic of asphalt mixture[J].Journal of Chang’an University (Natural Science Edition),2012,32(01):1.

更新日期/Last Update: 2017-01-21