Subgrade soil evaluation using integrated seismic refraction tomography and geotechnical studies: A case of Ajaokuta-Anyigba Federal highway, North-Central Nigeria

NRIAG Journal of Astronomy and Geophysics Pub Date : 2022-07-26 DOI:10.1080/20909977.2022.2094530

Obasaju Daniel Opemipo, O. Moroof, O. Sunday, Ojekunle Victor, Baiyegunhi Christopher

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引用次数: 1

Abstract

ABSTRACT Integrated seismic refraction tomography (SRT) and geotechnical tests were conducted on failed and stable sections of the Ajaokuta – Anyigba Highway, North-central Nigeria. This study was aimed at characterising the soil profile, determining the competence of the subgrade soils, and establishing relationships between geophysical and geotechnical parameters. Primary wave velocities (Vp) were calculated by using SeisImager/2D (V.2.9.1). The subgrade soils of the unstable segment were characterised by low Vp (358–607 m/s) while higher Vp (762–1417 m/s) characterised the stable segment. The geotechnical results confirmed the seismic refraction results. Geotechnical results revealed that the subgrades of the unstable section are generally classified as A-6 and A-7-6 clayey soils, with low to high plasticity, and a fair to poor subgrade rating. While the subgrades of the stable section are grouped as A-2-4 silty sands with low compressibility and good to excellent subgrade ratings. Simple linear regression analysis showed fairly strong positive correlations between Vp and sand with CBR (r = 0.81 and 0.78, respectively). On the other hand, fairly strong negative correlations were obtained between Vp and the plasticity index with fines (r = −0.63 and −0.82 respectively).

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综合地震折射层析成像和岩土工程研究的路基土壤评价:以尼日利亚中北部Ajaokuta-Anyigba联邦公路为例

摘要对尼日利亚中北部Ajaokuta - Anyigba高速公路的破坏段和稳定段进行了综合地震折射层析成像(SRT)和岩土工程试验。这项研究的目的是表征土壤剖面，确定路基土壤的能力，并建立地球物理和岩土参数之间的关系。利用SeisImager/2D (V.2.9.1)计算一次波速度(Vp)。不稳定段路基土具有低Vp (358 ~ 607 m/s)和高Vp (762 ~ 1417 m/s)的特征。岩土工程结果证实了地震折射结果。结果表明，失稳断面路基一般为a -6和a -7-6级粘土，塑性从低到高，路基等级从中等到较差。稳定段路基为A-2-4级粉砂，可压缩性低，路基等级好至优。简单线性回归分析表明，Vp、砂与CBR呈较强的正相关(r分别为0.81和0.78)。另一方面，Vp与细粒塑性指数呈较强的负相关(r分别为- 0.63和- 0.82)。

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NRIAG Journal of Astronomy and Geophysics

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