养护时间对砂-膨润土混合料强度特性的影响

T. Kalita, B. Borthakur, Bendangtemsula Imchen, B. Deka, A. Goswami
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引用次数: 1

摘要

垃圾填埋场是在地面上的一个安全的工程坑,废物被倾倒在里面。需要使用适当的填埋衬垫,以避免废物与周围环境之间的任何水力连接。这些衬垫可以由不同的材料制成,其中砂-膨润土混合物吸引了更多的关注。砂土膨润土混合料是将两种粒径和化学活性不同的材料混合而成的一种具有低导电性、低压缩性和足够强度的材料。混合物的低水力导电性是由于膨润土颗粒能够膨胀并填充砂颗粒之间的空隙,而砂框架具有低压缩性。采用80%的砂土和20%的膨润土配制砂土-膨润土混合料,在此基础上进行了各种初步试验和二次试验,研究了混合料的性能。采用标准普罗克特法测定了最佳含水率(OMC)和最大干密度(MDD)。通过试验得出砂-膨润土混合料的无侧限抗压强度随养护时间和含水量的变化规律,以确定砂-膨润土混合料的最佳养护时间和含水量。因此,可以提出一个建议,当最大无侧限抗压强度(UCS)将出现在一个特定的养护期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effect of Curing Period on Strength Behaviour of Sand Bentonite Mixes
A landfill is a secured engineered pit in the ground into which the wastes are dumped. Proper landfill liners need to be used to avoid any hydraulic connections between waste and surrounding environment. These liners can be created of different materials of which sand-bentonite mixtures are attracting greater attention. The sand bentonite mixture is a mixture of two different materials in terms of their particle size and chemical activity to produce a material with low hydraulic conductivity, low compressibility and sufficient strength. Low hydraulic conductivity of the mixture is due to the ability of bentonite particles to swell and fill the voids between the sand particles and whereas sand framework provides low compressibility. In this work, 80% sand and 20% bentonite were taken for the sand-bentonite mixture, on which various preliminary tests and secondary tests were carried out to study the properties of the mixture. The Optimum Moisture Content (OMC) and Maximum Dry Density (MDD) were determined by Standard Proctor Test. Variation of unconfined compressive strength with curing period as well as with the water content on sand-bentonite mixture were obtained from the results of the tests performed in order to get the optimum curing period and water content. Hence, a suggestion can be made as to when the maximum Unconfined Compressive Strength (UCS) will occur at a particular curing period.
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