综合地球物理和岩土工程方法的基础前期调查

O IbrahimAdewuyi, O FalaePhilips
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引用次数: 6

摘要

为确定底土作为基础材料的能力,对某工业厂房规划的建筑基础进行了综合地球物理和岩土工程调查。采用电阻率成像(ERI)和土壤分析技术。对四个垂直电测深(VES)点进行了两次遍历,并钻了8个钻孔进行标准穿透试验(SPT)。此外,还在1.5米和10米深度处采集了土壤样本,并进行了各种实验室分析。通过地震探测圈定了表土、饱和砂质粘土和灰岩3个地电层。SPT N值表明土的相对密度为中密至极密;岩土力学分析结果表明,在1.5 m和10 m处,土的最大干密度分别为1680 ~ 1900 kg/m3和1600 ~ 1850 kg/m3;在1.5 m和10 m处,土的最佳含水率分别为14 ~ 19%和13 ~ 19%。土为粉砂质,塑性较低,具有低至中等膨胀势。总之,在研究区域内,工业结构基础所处的地下是安全的,完全可以进行任何工程工作。由于该地区的水屋性质,建议将建筑物置于5米至10米深的药丸上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated Geophysical and Geotechnical Methods for Pre-Foundation Investigations
An integrated geophysical and geotechnical investigation for a proposed building foundation of an industrial plant layout was carried out to determine the competency of the subsoil as foundation materials. Electrical Resistivity Imaging (ERI) and soil analyses techniques were adopted. Two traverses of four Vertical Electrical Sounding (VES) points were carried out and 8 Boreholes for Standard Penetration Test (SPT) were drilled. In addition soil samples were taken at 1.5 m and 10 m depths and subjected to various laboratory analyses. Three geoelectric layers were delineated from VES including topsoil, saturated sandy clay soil and limestone. The SPT N value indicates that the relative density of the soils is medium dense to very dense while the result of the geotechnical analyses shows that maximum dry density of the soils range from 1680-1900 kg/m3 and 1600-1850 kg/m3 respectively at 1.5 m and 10 m while the optimum moisture content range from 14-19% and 13-19% respectively at 1.5 m and 10 m. The soils are silty sand with low plasticity depiting low to medium swelling potential. Conclusively, the subsurface on which the foundation of the industrial structures will be located within the study area is safe and fairly competent for any engineering work. Owning to the water lodge nature of the area it is advice that the building should rest on pill between 5 m and 10 m depth.
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