利用电阻率层析成像(ERT)方法识别复理石基板,以评估注入过程的有效性

Pub Date : 2023-05-10 DOI:10.7494/geol.2023.49.2.197
M. Ćwiklik, Bernadetta Pasierb, S. Porzucek
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引用次数: 0

摘要

在喀尔巴阡弗莱施地区(波兰南部喀尔巴阡弗莱施带)建造S-7卢比耶斯- Rabka-Zdrój双高速公路的一段期间,观察到路堤受到破坏,新路面出现裂缝和洼地。对在建路段的地质和工程条件分析表明,该路段存在复理石地层复杂的构造结构,地下水位较浅,滑坡较多。为了稳定路面基材,决定进行注入,并对这些注入的位置进行了初步的岩土技术测试。然而,由于地质构造的高度可变性,采用的目标方法是电阻率层析成像(ERT),该方法分两个阶段进行调查。在第一阶段,确定了近地表带的地电/地球化学结构,并指出了道路损坏的可能原因。这一阶段是通过注入混合物对地面进行稳定和密封来完成的。在第二阶段,进行了研究,以评估注射工艺的有效性。ERT方法有效地识别了浅层地质构造,特别是圈定了复理石强断裂带和断层相关区域。利用电阻率层析成像方法,还可以确定注入混合物的近似渗透深度和松动区的填充程度。
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Recognition of the flysch substrate using the electrical resistivity tomography (ERT) method to assess the effectiveness of the injection process
During the construction of a section of the S-7 Lubień – Rabka-Zdrój dual expressway, located in the area of the Carpathian flysch (Carpathian Flysch Belt, South Poland), damage to the embankment was observed, as well as cracks and depressions in the new pavement. An analysis of the geological and engineering conditions in the area of the road section under construction showed the existence of a complex tectonic structure of the flysch formations, a shallow groundwater table, and numerous landslides. In order to stabilize the road substrate, it was decided to carry out injections, and the locations of these injections were initially geotechnically tested. However, due to the high variability of the geological structure, the target method employed was electrical resistivity tomography (ERT), which performed the survey in two stages. In Stage I, the geoelectrical/geochemical structure of the near-surface zone was identified, and the probable causes of road damage were indicated. This stage was completed by performing the stabilization and sealing process of the ground with an injection mixture. In Stage II, studies were carried out to evaluate the effectiveness of the injection process. The ERT method effectively identified the shallow geological structure and, in particular, delineated the zone of strong fractures in the flysch and areas associated with faults. Using the electrical resistivity tomography method, it was also possible to determine the injection mixture’s approximate penetration depth and the loosening zone’s degree of filling.
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