Optimization of the California Bearing Ratio of Lateritic Soil Stabilized with Rice Husk Ash using Scheffe’s Method

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Ike Ubadinanwa Elvis, Ike Charles Chinwuba
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Abstract

In a bid to minimize the adverse effects of agricultural waste materials in the environment and also encourage for its optimal usage, this study aims at developing model constants for optimizing the California Bearing Ratio (CBR) of Lateritic Soils stabilized with Rice Husk Ash (RHA) using Scheffe’s method. The study practically involved sampling of the materials, laboratory testing and model formulation. The natural soil was subjected to standardized laboratory testing to determine its index and Engineering properties. The scheffe’s method provided mix ratios for the three mix components (lateritic soil, RHA and water) involved in the mix design. The method also employs the use of second-degree polynomials to generate the model constants. The CBR of the soil was the primary property of the soil considered in the study therefore, a CBR test was conducted on the natural soil and modified soil. The optimization technique carried out gave an optimal mix observed to be of mix ratio 1: 1.70: 0.25 for lateritic soil, RHA and water with a CBR value of 30%. The model formulated was further subjected to validation using the F-test and T-test statistical method and it was found adequate at a confidence level of 95%. Hence, the null hypothesis (H0 ) was adopted. The formulated model being adequate can be used exclusively to predict the CBR of Lateritic soil Stabilized with Rice Husk Ash within the same locality.
用Scheffe法优化稻壳灰稳定红土的加力比
为了最大限度地减少农业废弃物对环境的不利影响,并鼓励其最佳利用,本研究旨在利用Scheffe方法建立优化稻壳灰(RHA)稳定红土的加州承载比(CBR)的模型常数。研究实际涉及材料取样、实验室测试和模型制定。对天然土进行了标准化的实验室测试,以确定其指标和工程特性。scheffe的方法提供了混合设计中涉及的三种混合成分(红土、RHA和水)的混合比例。该方法还利用二次多项式来生成模型常数。土壤的CBR是研究中考虑的主要性质,因此对天然土和改性土进行了CBR试验。优选出红土、RHA和水的最佳配比为1:1.70:0.25,CBR值为30%。进一步用f检验和t检验统计方法对所建立的模型进行验证,在95%的置信水平下,模型是足够的。因此,采用零假设(H0)。所建立的模型完全可以用于预测同一区域内稻壳灰稳定红土的CBR。
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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来源期刊
Jurnal Kejuruteraan
Jurnal Kejuruteraan ENGINEERING, MULTIDISCIPLINARY-
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24 weeks
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