Using Electrical Resistivity Tomography (ERT) as a tool in geotechnical investigation of the substrate of a highway

IF 0.6 Q4 GEOSCIENCES, MULTIDISCIPLINARY
M. Maślakowski, S. Kowalczyk, R. Mieszkowski, K. Józefiak
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引用次数: 24

Abstract

Abstract Geological and geotechnical engineering field tests, like structure drillings and dynamic (DPL, DPSH) or static probing (CPT), are considered for a fundamental source of information about soil and water environments. Since Eurocode 7 has been introduced, it has become more common to use also dilatometers (DMT) or pressure meters (PMT). Results obtained using all the mentioned tests are always of a discrete nature - information is provided in certain points in the field. However, they determine the basis for creating spatial models of geological structure and geotechnical condi- tions of a substratum. The range and number of investigations conducted (including drilling, probing and laboratory tests) influence precision, in which a geological structure is identified and thus, also affect probability of compatibility between spatial model and real geological conditions of a substratum. In the paper, results of non-invasive electrical resistivity tomography (ERT) method are presented, comprising 2-dimensional image of a soil medium resistance. Electrical resistance is a parameter that reflects diversification of a soil medium, considering its lithological aspect. In addition, when combined with drilling results, it can be used to accurate determination of boundaries between soil layers. Carrying out of ERT tests in the field during expressway construction contributed to identification of weak, low-strength soils like organic soils (peat, aggradated mud) and of soft consistency cohesive soils. These kinds of soil are the main cause for unacceptable deformations appearing in the new road engineering structure.
电阻率层析成像(ERT)技术在高速公路路基岩土工程勘察中的应用
地质和岩土工程现场试验,如结构钻孔和动态(DPL, DPSH)或静态探测(CPT),被认为是土壤和水环境信息的基本来源。自欧洲规范7引入以来,使用膨胀计(DMT)或压力表(PMT)变得更加普遍。使用所有上述测试获得的结果总是具有离散性质-信息在现场的某些点上提供。然而,它们决定了创建地质构造和基底岩土条件空间模型的基础。所进行的调查(包括钻探、探测和实验室测试)的范围和数量影响到确定地质结构的精度,从而也影响到空间模型与基底的实际地质条件之间相容的可能性。本文介绍了无创电阻率层析成像(ERT)方法的结果,该方法包含土壤介质电阻的二维图像。考虑到土壤介质的岩性,电阻是反映土壤介质多样化的参数。此外,结合钻孔结果,可以准确确定土层之间的边界。在高速公路建设过程中进行的现场ERT试验有助于识别弱、低强度土,如有机土(泥炭土、淤泥)和软稠度粘性土。这类土体是新建道路工程结构出现不可接受变形的主要原因。
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来源期刊
Studia Quaternaria
Studia Quaternaria GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
1.40
自引率
0.00%
发文量
0
期刊介绍: Studia Quaternaria is designed to publish scientific works concerning the Quaternary, on local, regional and global scale. Studia Quaternaria is interested in all fields of research dealing with stratigraphy and reconstruction of the past environments, including palaeogeography, palaeoecology, palaeoclimatology, palaeohydrology etc. The journal is also open to studies of natural environmental processes, and to recognition of mechanisms involved in the dynamics of our environment. The clue is that the Quaternary is still ongoing and vivid, and understanding of its past and present development support each other.
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