Analysis of collapse mechanism for mantled karst collapse
-
摘要: 以覆盖型岩溶塌陷为研究对象,首先分析了覆盖型岩溶塌陷的演化机制,然后考虑土体自重、真空负压、降雨和爆破等因素的共同作用,并基于极限平衡理论建立了覆盖型岩溶塌陷土体稳定系数及塌陷范围的计算方法,以重庆市南岸区涂山湖二外桥梁左侧塌陷为例,发现计算出的塌陷范围与现场塌陷范围基本一致,并分析出该处土体在爆破、真空负压、自重和渗透等因素作用下的稳定系数和塌陷范围变化规律为:稳定系数在土层厚度增加时可增大46%,而当水深从0.1 m增加到1 m和真空负压由0 kPa增大到50 kPa时,可降低30%~35%。最后考虑爆破的时效性,探讨了土柱稳定系数随着爆破振动的变化规律,在考虑爆破荷载作用后,土柱稳定系数将降低4%,爆破对土柱的作用时间约为6 s。Abstract: Tushan lake of Nanshan street in Nan’an district of Chongqing municipality is a low mountain area characterised by karst valley landforms where developing 7 karst zones and ever taking place a mantled karst collapse at the VHSC bridge. In order to provide theoretical basis for the governance, monitoring and early warning of mantled type karst collapse, and to ensure that human life and property are secured in karst collapse zones, this paper took mantled karst collapse as the research object. At first, the evolution mechanism of mantled karst collapse is analyzed. Then the calculation expressions of sliding force and anti-sliding force of mantled karst collapse are obtained considering the joint interaction of soil load, vacuum negative pressure, rainfall and blasting. At the same time, based on the limit equilibrium theory,the methods for calculating collapse soil stability coefficient and determining possible collapse extent of the mantled karst collapses were established; and these methods were applied to the collapses on the left of VHSC bridge. The calculated result of collapse extent is basically consistent with the field observation. In addition, soil thickness that affects stability coefficient and combined effect of soil load, vacuum negative pressure, rainfall and blasting on the collapse extent are were. The results shows that the stability coefficient can increase by 46% when the thickness of the soil increases, and when the depth of water increases from 0.1 m to 1 m and the vacuum pressure increases from 0 kPa to 50 kPa, the stability coefficient can reduce by 30% to 35%. Collapse extent also increases with the increase of soil thickness and explosive amount; and it decreases with the increase of explosive distance and internal friction angle. The reduction of collapse range is larger with the explosive distance increase at start, when the explosive distance increase to 110 m, the collapse diameter decreases by 17%. The collapse range decreases exponentially with the increase of internal friction angle, when the internal friction angle increase from 10° to 26°, the collapse diameter decreased 1%. At last, considering the timeliness of blasting, the soil slump’s change law of stability coefficient with blasting vibration is analyzed. After blasting, the stability coefficient decreased 4%. Blasting effect the soil duration is about 6 s.
-
Key words:
- karst collapse /
- blasting /
- limit equilibrium /
- stability coefficient /
- collapse range /
- evolution mechanism
-
[1] 陈冬琴,唐仲华,陈锐. 基于水动力-力学耦合方法的岩溶塌陷预测[J]. 安全与环境工程,2016,23(4):26-32. [2] 贺可强,王滨,万继涛. 枣庄岩溶塌陷形成机理与致塌模型的研究[J].岩土力学,2002, 23(5):564-569. [3] 王滨,李治广,董昕,等. 岩溶塌陷的致塌力学模型研究:以泰安市东羊娄岩溶塌陷为例[J]. 自然灾害学报,2011,20(4): 119-125. [4] 万梁龙,陈福全,邹维列.岩溶塌陷影响下加筋路基承载机理研究[J].长江科学院院报,2017,34(2):56-62. [5] 贺炜,李昆,王芳洪. 防岩溶塌陷加筋垫层大比例模型试验及设计理论研究[J].岩石力学与工程学报,2016,35(5):980-988. [6] 吴亚楠. 泰安市城区-旧县水源地岩溶塌陷演化过程分析[J].中国岩溶,2017,36(1):94-100. [7] 张震,陈忠达,朱耀庭,等. 地应力对路基下伏溶洞稳定性的影响[J]. 岩土力学,2016,37(S2):715-723. [8] 袁杰,高宗军,马海会.论岩溶地下水位对岩溶塌陷形成的控制作用:以山东枣庄市岩溶地面塌陷区为例[J].中国地质灾害与防治学报,2010,21(4):95-98. [9] 高宗军. 岩溶地面塌陷形成机理与成因模式研究:以山东泰安-莱芜为例[J]. 中国工程科学,2008,10(4):38-43. [10] 张海坦,李庆华,邓书金.歌乐山岩溶地面塌陷发育特征[J].中国岩溶,2015,34(1):58-63. [11] 谢兴博,钟明寿,陈勇,等. 爆破振动速度与加速度的等效换算研究[J]. 爆破器材,2015, 44(5):51-56. [12] 王迪安.一维应力波理论在爆破地震效应研究中的应用[J].矿业研究与开发,1997,17(1):59-63. [13] SL3782007,水工建筑物地下开挖工程施工规范[S].2007. [14] 于建新,陈卫忠,杨建平,等. 上下交叉隧道爆破振动控制技术研究[J].岩土力学,2014,35(2):445-452.
点击查看大图
计量
- 文章访问数: 2345
- HTML浏览量: 827
- PDF下载量: 1138
- 被引次数: 0