尼日利亚西南部Ado-Ekiti基底岩石重量与力学性质的经验关系

A. Ca, Akint Frinwa Oj, Ademilua Lo
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引用次数: 3

摘要

通过对尼日利亚西南部Ado-Ekiti地区基岩的重力参数和力学参数进行对比,建立两者之间的经验关系,进行工程基础研究。野外工作表明,研究区主要基底岩为夏绿岩、混辉岩、花岗片麻岩和石英岩。新鲜的岩石样本是从横跨研究区域的30个地点采集的。采用单摆原理和阿基米德原理分别测定了岩样的重力和比重。采用标准方法测定了30个岩石试样的力学分析(单轴抗压强度、抗剪强度、杨氏模量、体积模量和泊松比)。这适用于所有工程基础研究,以确定这些领域对工程发展的组成。工程研究揭示了地下岩石的可靠性、刚度、稳健性和抗架空荷载的能力。结果表明,其比重和比重值分别为935055.46 ~ 1038167.647 mg和2.61 ~ 2.83。单轴抗压强度(UCS)、杨氏模量(E)、剪切模量(μ)、体积模量(K)和泊松比(N)的取值范围分别为49 ~ 107 mpa、1003 ~ 3321 mpa、416 ~ 1310 mpa、707 ~ 2728 mpa和0.232 ~ 0.316。力学参数与重力和比重的交叉图显示出较好的相关性,相关系数R分别为0.52 ~ 0.84和0.52 ~ 0.81。结果验证还表明,部分单轴抗压强度和泊松比在本文导出的两个地球物理参数经验方程中具有较好的代表性。所建立的质量参数与力学参数之间的关系表明:岩石的机械强度是重力对岩石的作用的函数,混合岩和花岗质岩石比片麻岩和石英岩具有更高的机械强度。所生成的一些方程已被证明是可靠和有用的,可用于确定力学性能。所采用的物理方法更快、更便宜、更成熟、更全面,可以解决研究这些基岩相关地形的工程性质时遇到的一些工程问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Empirical Relationship between Gravimetric and Mechanical Properties of Basement Rocks in Ado-Ekiti, Southwestern Nigeria
Gravimetric and mechanical parameters of Basement rocks in Ado-Ekiti, South-western Nigeria were correlated for engineering foundation studies with the aim of establishing an empirical relationship between the two parameters. Field operations revealed Charnockite, Migmatite, Granite Gneiss and Quartzite as principal basement rocks in the study area. Fresh rock samples were taken from thirty (30) locations cutting across the geology of the study area. Simple pendulum principle and Archimede’s principles were employed to determine the gravity and the specific gravity of the rock specimens repectively. The mechanical analyses (uniaxial compressive strength, shear strength, Young’s modulus, Bulk modulus and Poisson’s ratio) for the thirty rock samples were determined employing standard method. This is applicable to all engineering foundation studies to determine the compence of such areas for engineering developments. The engineering studies revealed the reliability, stiffness, soundness and resistance of the subsurface rocks to the prevailing overhead loads. The results indicated that the gravity and specific gravity values ranged from 935055.46 mgal to 1038167.647 mgal and 2.61 to 2.83 respectively. The values of Uniaxial Compressive Strength (UCS), Young’s modulus (E), Shear modulus (μ), Bulk modulus (K) and Poisson’s ratio (N´) ranged from 49–107 mpa, 1003–3321 mpa, 416–1310 mpa,707–2728 mpa and 0.232-0.316 respectively. The cross plots of the mechanical parameters with gravity and specific gravity showed good correlation with coefficient of correlation (R) ranging from 0.52 to 0.84 and 0.52 to 0.81 respectively. Results validation exercise also indicated that some of the Uniaxial Compressive Strength and Poisson’s ratio have good representation in the derived empirical equation with the two geophysical parameters in this study. The established relationship between the gravimetric and the mechanical parameters revealed that; the mechanical strength of rock is a function of the gravitational pull effect on the rocks and that migmatitic and granitic rocks possessed more mechanical strength than the gneissic and quarzitic rocks that characterised the study area. Some of the equations generated has been found reliable and useful in the determination of the mechanical properties. The physical methods adopted being faster, cheaper, proven and more comprehensive would solve some engineering problems in examining the engineering properties of these basement rocks related terrains.
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