Enhancing Geotechnical Properties of Lateritic Clay with Sawdust Ash-Lime Stabilizer

Journal of Engineering Advancements Pub Date : 2023-03-18 DOI:10.38032/jea.2023.01.002

Oluwafemi O. Omotayo, O. Ojuri, Oluwafemi O Olagunju

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Abstract

One important means of refining the geotechnical characteristics of soils is stabilization. This research sought to improve the geotechnical properties of lateritic clayey soil using sawdust ash-lime (SDAL) stabilizer. Soil-SDAL mixtures were made, after collecting lateritic clay samples and preparing mixtures of lime and sawdust ash in a ratio of 1:2. SDAL mixtures were added to the lateritic clay in increasing percentages from 0 to 10%. The materials’ index properties were determined, and compaction of the Soil-SDAL mixtures was done using four compactive efforts namely Reduced British Standard Light (RBSL), Standard Proctor (SP), West African Standard (WAS), and Modified Proctor (MP). Unconfined compressive strength (UCS) tests were performed on the Soil-SDAL mixtures as well. Results of the tests showed that the soil could be classified as an A-7-5(7) soil with a 13.7% plasticity index. The plasticity index increased with the addition of SDAL mixtures up to 6% after which there was a gradual decline. Meanwhile, maximum dry density (MDD) decreased while optimum moisture content (OMC) increased with SDAL addition. Unconfined compressive strength (UCS) of the soil increased from 38.58kN/m2 at 0% SDAL to a maximum of 129.63kN/m2 at 6% SDAL, after which there was a gradual decrease. Similar trends were noticed at all compactive efforts, indicating consistency in the performance of the stabilizer. Optimum results were achieved at 6% SDAL content, with Modified Proctor compactive effort giving the maximum value of 1,860kg/m3 MDD. The results prove that sawdust ash-lime mixture offers tremendous abilities in improving lateritic clay soil properties.

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木屑灰石灰稳定剂增强红土粘土的岩土性能

稳定是改善土壤岩土特性的一个重要手段。本研究旨在利用木屑灰泥(SDAL)稳定剂改善红土粘土的岩土力学性能。在收集红土粘土样品后，按1:2的比例配制石灰和锯末灰的混合物，制成土壤- sdal混合物。红土粘土中加入SDAL混合物的比例从0增加到10%。确定了材料的指标特性，并使用四种压实方法进行了土壤- sdal混合物的压实，即减少英国标准光(RBSL)，标准普罗克特(SP)，西非标准(was)和改良普罗克特(MP)。对土- sdal混合物进行了无侧限抗压强度(UCS)试验。试验结果表明，该土为a -7-5(7)型土，塑性指数为13.7%。随着SDAL掺入量的增加，塑性指数逐渐升高至6%，之后逐渐下降。同时，随着SDAL的添加，最大干密度(MDD)降低，最适含水量(OMC)增加。土的无侧限抗压强度(UCS)从0% SDAL时的38.58kN/m2增大到6% SDAL时的最大值129.63kN/m2，之后逐渐减小。在所有压实工作中都注意到类似的趋势，这表明稳定剂的性能是一致的。当SDAL含量为6%时，获得了最佳效果，改良的Proctor压实力的最大值为1860 kg/m3 MDD。结果表明，木屑灰石灰混合料对改善红土粘土的性质具有巨大的作用。

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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Journal of Engineering Advancements

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