Analysis of support performance and stability of the underground karst cave filled with organic skeleton material
-
摘要: 基于有机骨架材料的吸附作用,分析有机物质降低岩石矿物电解质的电导性质的作用机理,通过渗透试验、抗疲劳试验等验证了有机骨架材料良好的透水性能、抗疲劳性能、抗冲击性能及胶结泥化性能,在静载条件下对实际溶洞进行充填应用,验证了充填效果及材料性能,并建立仿真模型研究了下沉位移的变化规律。结果表明:有机复合材料能够使矿物元素活度系数变小,介电常数降低,与矿物颗粒结合后会形成稳定的晶格结构;有机骨架材料作为治理溶洞的充填材料,其结构性、耐久性都优于传统的充填材料,可满足岩溶地面塌陷治理工程中强度、稳定性与渗透性的材料要求,有效的提高了基础的抗沉降能力;实际充填施工过程中的数值分析与现场监测的位移变化规律与沉降趋势都具有较好的一致性,表明数值模拟的计算参数选取合理,得出的仿真变形规律可应用于指导工程施工。Abstract: Based on the adsorption of organic skeleton material, we analyzed the mechanism of organic materials reducing the conductivity of rock mineral electrolytes. The good water permeability, fatigue resistance, impact resistance and cementation performance of the organic skeleton material are verified by penetration tests and anti-fatigue tests. Under the condition of static load, we made an actual cave filling application to verify the filling effect and material performance and obtain the variation law of subsidence displacement by establishing a simulation model. The results show that the organic composite material can reduce the activity coefficient of mineral elements, decrease the dielectric constant, and form stable lattice structure when combined with mineral particles. As the filling material for karst cave treatment, organic skeleton material is superior to the traditional filling material in terms of structure and durability, which can meet the material requirements of strength, stability and permeability in the karst ground collapse treatment project, and effectively improve anti-settlement ability of the foundation. The numerical analysis in site filling construction process is well consistent with displacement change law and settlement trend from field monitoring, which indicates that the calculation parameters of the numerical simulation are reasonable, and the simulation deformation law obtained can be applied to guide project construction.
-
[1] 肖力源.岩溶地面塌陷区地质灾害治理措施分析[J].建筑工程技术与设计,2018(32): 3451. [2] 周建新,董向楠.地面塌陷地质灾害应急处置技术方法研究[J].区域治理,2018(50):182-184. [3] 孙怀凤,吴启龙,陈儒军,等.浅层岩溶瞬变电磁响应规律试验研究 [J].岩石力学与工程学报,2018,37(3):652-661. [4] 王康,孙熔正,杨新安.充填型浅层岩溶隧道溶洞处理技术研究 [J].华东交通大学学报,2018,35(3):23-28. [5] 赵美成.矿用固化泡沫充填技术在哈拉沟煤矿的应用 [J]. 陕西煤炭,2018,37(3):77-81. [6] 和法国,谌文武,韩文峰,等. 高分子材料SH固沙性能与微结构相关性研究[J].岩土力学,2009,12:3803-3807. [7] 任新红,郭永春,王清海,等.覆盖型岩溶潜蚀塌陷临界裂隙开度模型试验研究[J].水文地质工程地质 ,2012(3):84-87. [8] 吴庆华,张伟,刘煜,等.基于物理模型试验的岩溶塌陷定量研究[J].长江科学院院报,2018,35(3):52-58. [9] 朱川曲,崔栋歌,周泽,等.岩溶矿区采动裂隙发育及溶洞破坏特征相似模拟[J].地下空间与工程学报,2019,15(1):93-100. [10] 靳红华,王林峰,杨培丰.覆盖型岩溶塌陷的可靠性分析[J].铁道建筑,2018,58(11):112-116. [11] 石立国,刘俊,罗丁,等. 喀斯特地貌特性地基基础综合处理技术[J]. 施工技术 ,2017,(21):75-80. [12] Antonio Santo ,Paolo Budetta ,Giovanni Forte ,et al. Karst collapse susceptibility assessment: A case study on the Amalfi Coast [J]. Geomorphology, 2017 ,285 :247-259 [13] Hou Xian'gang,Shi Wenhao,Yang Yang,et al. A non-linear flow model for the flow behavior of water inrush induced by the karst collapse column[J]. RSC ADVANCES, 2018,8(3):1656-1665. [14] Huang Fu,Zhao LianHeng,Ling TongHua,et al. Rock mass collapse mechanism of concealed karst cave beneath deep tunnel [J]. International Journal of Rock Mechanics and Mining Sciences,2017,91:133-138. [15] Liu Honglei,Li Lianchong,Li Zhichao.Numerical Modelling of Mining-induced Inrushes from Subjacent Water Conducting Karst Collapse Columns in Northern China [J]. MINE WATER AND THE ENVIRONMENT,2018 ,37(4):652-662. [16] R Sharapov , N Lodigina . Calculation of the Strip Foundation on Solid Elastic Base, Taking into Account the Karst Collapse[A]//IOP Conference Series[C]: Materials Science and Engineering,2017,221(1): 012-023. [17] Li J P,Nie Q K,Liu Q S,et al. Risk assessment method of karst ground collapse based on weight back analysis [J]. Rock and Soil Mechanics,2018,39(4):1395-1400. [18] Paul L. Broughton;Darrell Cotterill. Breccia pipe and sinkhole linked fluidized beds and debris flows in the Athabasca Oil Sands: dynamics of evaporite karst collapse-induced fault block [J]. Bulletin of Canadian Petroleum Geology 2017 ,65 (1):200-234. [19] Frumldn Amos, Zaidner Yossi,Na'aman Israel,et ai. Sagging and collapse sinkholes over hypogenic hydrothermal karst in a carbonate terrain [J].Geomorphology 2015,229:45-57 . [20] Arul Kumar M,Capolungo L,McCabe R J,et al. Characterizing the role of adjoining twins at grain boundaries in hexagonal close packed materials. [J]. Scientific Reports, 2019,9(1):38-46. [21] 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. [22] 张少波,简文彬,洪儒宝,等.水位波动条件下覆盖型岩溶塌陷试验研究[J].工程地质学报,2019,27(3):659-667. -
点击查看大图
计量
- 文章访问数: 1495
- HTML浏览量: 529
- PDF下载量: 269
- 被引次数: 0
下载:
