有机质对处理土膨胀和不排水抗剪强度的影响

Journal of Civil, Construction and Environmental Engineering Pub Date : 2019-07-12 DOI:10.11648/J.JCCEE.20190402.12

S. Abbey, A. Olubanwo, Samson Ngambi, E. Eyo, B. Adeleke

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引用次数: 8

摘要

本文介绍了一项实验室和统计研究，研究了胶结有机粘土与环保(副产品)胶凝材料(如碎粒状矿渣(GGBS)和水泥窑粉尘(CKD)混合的膨胀和不排水抗剪强度。土壤中有机物的存在可能会造成很大的问题，特别是在道路和地基等基础设施的建设过程中。因此，实验和统计研究对于进一步了解有机物质对副产物(GGBS和CKD)处理的土壤膨胀和强度性能的影响至关重要。在第一阶段，将5种人工合成的有机粘土与20%的水泥混合，其中有机质含量分别为0%、5%、10%、15%和20%。在第二阶段，水泥掺量降至4%，分别加入12%的GGBS和4%的CKD。所有混合样品均固化至56天，并进行不排水三轴试验和一维膨胀试验。当有机质含量增加0 ~ 20%时，未处理土的不排水抗剪强度从22.47kPa降低到15.6kPa。而在有机质含量为0 ~ 20%的相同范围内，膨胀率从1.17%增加到3.83%。结果还表明，在所有研究样品中加入20%的水泥后，强度和膨胀都有所改善。对于含有12% GGBS和4% CKD的4%水泥处理的样品，与含有20%水泥处理的土壤相比，由于塑性降低，处理后的土壤在膨胀势方面表现出更好的性能。在添加20% CEM和4% CEM: 12% GGBS: 4% CKD的条件下，不排水抗剪强度从632kPa增加到804.9kPa，从549.8kPa增加到724.4kPa。结果表明，由于胶结作用，GGBS和CKD的包裹体减少了膨胀，提高了不排水抗剪强度，而与有机物质的含量无关。然而，统计研究结果表明，有机质的存在影响了水泥、GGBS和CKD处理土壤的性能程度。

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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Effect of Organic Matter on Swell and Undrained Shear Strength of Treated Soils

This paper presents a laboratory and statistical study on swell and undrained shear strength of cemented organic clays blended with eco-friendly (by-product) cementitious materials such as ground granulated blast slag (GGBS) and cement kiln dust (CKD). The presence of organic matter in soils can be very problematic especially during construction of infrastructures such as roads and foundations. Therefore, experimental and statistical investigations are crucial to further understand the effect of organic matter on swell and strength performance of soils treated with by-product materials (GGBS and CKD). Five artificially synthesised organic clays with 0%, 5%, 10%, 15% and 20% organic matters were mixed with 20% cement during the first phase of mixing. In the second phase, cement content was reduced to 4% and blended with 12% GGBS and 4% CKD respectively. All mixed samples were cured up to 56days and subjected to undrained triaxial test and one-dimensional oedometer swell test. The undrained shear strength of the untreated soils decreases from 22.47kPa to 15.6kPa upon increase in organic matter from 0-20%. While the swell increases from 1.17% to 3.83% for the same range of 0-20% organic matter. The results also show improvement on strength and swell upon addition of 20% cement for all investigated samples. For samples treated with 4% cement and inclusion of 12% GGBS and 4% CKD, the treated soils showed better performance in terms of swell potential due to reduction in plasticity compared to the plasticity of soils treated with 20% cement. Undrained shear strength increases from 632kPa to 804.9kPa and from 549.8kPa to 724.4kPa with reduction in organic matter upon addition of 20% CEM and 4% CEM: 12% GGBS: 4% CKD after 56days. The results obtained show that the inclusion of GGBS and CKD reduced swell and increases undrained shear strength irrespective of the percentage of organic materials due to cementation effect. However, results of the statistical studies show that the presence of organic matter influences the extent of performance of the cement, GGBS and CKD treated soils.

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Journal of Civil, Construction and Environmental Engineering

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