INVESTIGATION OF CALCIUM CARBIDE RESIDUE AS A STABILIZER FOR TROPICAL SAND USED AS PAVEMENT MATERIAL

Urban Transport XXIV Pub Date : 2018-09-19 DOI:10.2495/UT180261

I. Akinwumi, O. Ajayi, M. Agarana, S. A. Ogbiye, O. Ojuri, A. O. David

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引用次数: 2

Abstract

Wastes that have cementitious properties can become a useful source of cheap materials for soil improvement, thereby reducing the cost of construction projects on sites that have unsuitable soils. This research work investigated the effects of the application of calcium carbide residue (CCR) to a tropical soil on its geotechnical properties in order to assess the suitability of the stabilized soil for use as a road pavement material. Tests to determine the grain size distribution, specific gravity, liquid and plastic limits, compaction, California bearing ratio (CBR) and unconfined compressive strength (UCS) of the natural soil and its stabilization with varying percentages of CCR were carried out. The outcome showed that increasing application of CCR generally reduced the soil’s specific gravity, plasticity index and maximum dry unit weight. A direct proportionality was also found between the CCR content and each of the liquid and plastic limits, optimum moisture content, CBR and UCS. Thus, the soil became more workable and its strength properties were improved by stabilization with CCR. Consequently, the subgrade characteristics of the soil for use as earthwork materials for road construction was improved. Based on strength properties of the stabilized soil, an optimal application of 4% CCR was found suitable for the stabilization of the sand with similar properties as those studied. The use of CCR as for stabilizing sand for road construction is recommended as a cheap and sustainable approach for developing countries.

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电石渣作为路面用热带砂稳定剂的研究

具有胶凝特性的废物可以成为改善土壤的廉价材料的有用来源，从而减少在土壤不适宜的地点进行建设项目的成本。本研究研究了电石渣(CCR)在热带土壤中的应用对其岩土性能的影响，以评估稳定土作为道路路面材料的适用性。试验确定了天然土的粒度分布、比重、液限和塑限、压实、加州承载比(CBR)和无侧限抗压强度(UCS)及其在不同CCR百分比下的稳定性。结果表明，增加CCR施用量总体上降低了土壤比重、塑性指数和最大干重。CCR含量与液塑极限、最佳含水率、CBR和UCS均成正比关系。从而提高了土的可耕性，提高了土的强度性能。从而改善了道路土方材料用土的路基特性。根据稳定土的强度特性，确定了4% CCR的最优应用，适用于具有相似特性的砂土的稳定。对于发展中国家来说，建议使用CCRas来稳定道路建设中的沙子，这是一种廉价和可持续的方法。

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Urban Transport XXIV

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