摘要
针对目前土工筋带测试存在可靠性低和成本高昂的困境,自行研制了基于复合导电材料的新型筋带大变形传感元件,并成功应用于内蒙某大型槽仓基坑填方加筋带变形监测项目中。结果表明:土工筋带变形随上覆填土厚度增加呈阶梯状增大,其中相邻上层填土对筋带受力影响最大,至上覆填土2~3层后变形逐渐趋于稳定,即各层筋带施工危险期为该层以上填土施工前期。沿筋带长度方向上,各测点变形出现不均匀性和随填土高度增加动态调整的过程,但所有测点变形最大不超过1.8%,且部分测点出现受挤压现象。相应地填方底部的竖向土压力测值也随填土厚度增加呈线性增大,最大达250 kPa,且同一纵线方向上不同测点土压也呈现出不均匀性和多峰性。而墙背土压则基本也只受其上2~3层填土影响,其后趋于稳定且总值不大。最后,对填方加筋土的潜在破裂面形式分析为指数函数的直曲滑面,并结合不同高度处筋带变形最大值分布规律提出了现场铺设密度优化的建议。
In allusion to low reliability and high cost in the test of geotechnical reinforcement ribbon at present,a new type of large deformation sensing element is developed based on composite conductive material and is successfully applied to deformation monitoring project in a large foundation pit of coal bunker in Inner Mongolia. The result shows that the increase of deformation in geotechnical reinforcement ribbon is ladder-like with the overlying filling thickness increasing. Geotechnical reinforcement ribbon is impacted seriously by adjacent upper filled soil. Deformation gradually becomes stable after 2 ~ 3 layers overlying soil. Namely the construction crisis of each layer geotechnical reinforcement ribbon happens in the above fill prophase construction. Each measuring point deformation is inhomogeneity and the process of dynamic adjusts with filling height increasing along the length of ribbon direction.But all the point 's biggest deformation does not exceed 1. 8% and some stations are affected by extrusion.Accordingly,seepage at the bottom of the vertical earth pressure measurements also increases with filling thickness increasing linearly. The largest is 250 KPa. Different soil pressure measuring point in the same ordinate direction also presents the inhomogeneity and multimodal. While the wall back earth pressure basic is 2 ~ 3 layer filling effect and tend to be more stable and less gross. Finally,the potential failure surface of sliding surface is analyzed and the form of sliding surface is index function. Suggestions of laying density optimization are put forward combined with different heights in ribbon maximum deformation distribution site.
出处
《地下空间与工程学报》
CSCD
北大核心
2018年第S1期322-328,429,共8页
Chinese Journal of Underground Space and Engineering
基金
国家自然科学基金(51504245,51404210)
江苏省博士后基金(1402009B)
高等学校学科创新引智计划(B14021).
关键词
槽仓基坑
导电复合材料
加筋带
变形
土压力
foundation pit of coal bunker
conductive composite material
geotechnical belt
deformation
earth pressure