VERY LOW FREQUENCY ELECTROMAGNETIC GEOPHYSICAL SURVEY ALONG FAILED SECTIONS OF SANGO-OTA-IDIROKO HIGHWAY AND SELECTED FEEDER ROADS IN OTA, SOUTHWEST NIGERIA

Earth Science Malaysia Pub Date : 2022-01-01 DOI:10.26480/esmy.01.2022.24.31

Olatinsu Olawale Babatunde, Omodiagbe Onuwabhagbe

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Abstract

Very low frequency electromagnetic (VLF-EM) survey was conducted along failed segments of some roads in Ota, southwest Nigeria to reveal the geologic dispositions of subsurface material underlying the road pavements. Geonics EM-16 VLF was employed for data acquisition across a total distance of about 2.6 km. Fourteen traverses were positioned along failed road segments with one control traverse arranged along stable road segments. Real and quadrature field data components were processed via Fraser and Karous-Hjelt filtering to suppress noise and enhance signal strength. Positive peaks of filtered real component on Fraser plots depict the presence of conductive subsurface materials. Good correlation exists between positive peaks on Fraser plots and conductive zones on 2-D current density at several lateral distances and depths across all the traverses. Delineated VLF anomalies represent weak zones that might pose serious threat to road stability. These conductive anomalies are presumably composed of clayey bodies (laterite/lateritic soil) in the subgrade soil used for road construction or unexcavated host materials in the subsurface. Changing volume of clayey materials under varying climatic conditions is a major cause of distress to engineering structures. Clayey materials by virtue of their pore characteristics (high porosity and low permeability) tends to undergo alternating series of expansion and contraction under different climatic conditions. These seasonal dispositions would eventually manifest as cracks and potholes on road pavements. Uneven distribution of different adjacent subsurface lithologies contributes to differential settlement, which is a possible catalyst of road failure.

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在尼日利亚西南部的ota，沿sango-ota-idiroko高速公路和部分支线公路的失效路段进行了甚低频电磁地球物理测量

在尼日利亚西南部的Ota进行了甚低频电磁(VLF-EM)调查，以揭示道路路面下地下物质的地质分布。Geonics EM-16 VLF用于总距离约2.6 km的数据采集。沿故障路段布置14条导线，沿稳定路段布置1条控制导线。实场和正交场数据分量通过Fraser滤波和Karous-Hjelt滤波进行处理，抑制噪声，增强信号强度。弗雷泽图上滤波实分量的正峰描述了导电地下物质的存在。在所有导线的若干横向距离和深度上，弗雷泽图上的正峰值与二维电流密度的导电区之间存在良好的相关性。圈定的VLF异常代表了可能对道路稳定性构成严重威胁的薄弱区域。这些导电异常可能是由用于道路建设的路基土中的粘土体(红土/红土)或地下未挖掘的宿主材料组成的。粘土材料在不同气候条件下体积的变化是造成工程结构破坏的主要原因。粘土材料由于其孔隙特性(高孔隙度和低渗透)，在不同的气候条件下往往会发生一系列交替的膨胀和收缩。这些季节性的变化最终会表现为路面上的裂缝和坑洞。邻近不同地下岩性分布不均匀，造成不同沉降，可能是道路破坏的催化剂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Earth Science Malaysia

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审稿时长

12 weeks