Cement Percent Effect on the Shear and Interface Strength of Remolded Cement Treated Sand

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY Pub Date : 2022-02-19 DOI:10.14500/aro.10805
Zahraa N. Rashied
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Abstract

This research aims to simulate the behavior of remolded cement treated poorly graded sand in term of shear and interface strength using the direct shear test. Different percentages of cement up to 15% by weight are added to the soil samples. Compacted cement treated soil samples are prepared at the optimum moisture content and left for 28 days in the humidity room then distributed to use them for the remolding samples preparation. The shear strength parameters for both cases soil to soil interface and concrete to soil interface are predicted, where the results show that the interface strength parameters are higher than the shear strength parameters of the remolded soil samples. The increase in cement percent increases the cohesion (C) of the treated soil, whereas the interface cohesion (Cint.) has a maximum value at 10% of added cement, and the maximum percent between cohesion (Cint.) and soil cohesion (C) is of 76.2% at 0% added cement. Moreover, the results show an increase in the interface angle of friction (δ) and a decrease in the angle of friction (φ) as the percent of cement increases. The maximum percent between interface angle (δ) and angle of friction (φ) is 63.5% at 15% of the added cement. The hardened cement in the remolded case adheres to sand grains and works as soil grains with different sizes that lead to changes in the shear properties of the soil.
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水泥掺量对水泥处理砂抗剪强度和界面强度的影响
本研究旨在通过直剪试验模拟改造水泥处理差级配砂的抗剪和界面强度行为。在土壤样品中加入不同比例的水泥,最高可达重量的15%。在最佳含水率下制备水泥处理后的土样,在湿室中放置28天,然后分配用于重塑样的制备。对两种情况下土-土界面和混凝土-土界面的抗剪强度参数进行了预测,结果表明,界面强度参数高于重塑土样品的抗剪强度参数。水泥掺量的增加增加了处理土的黏结力(C),而界面黏结力(Cint.)在水泥掺量为10%时达到最大值,在水泥掺量为0%时,黏结力(Cint.)与土壤黏结力(C)之间的最大百分比为76.2%。随着水泥掺量的增加,界面摩擦角δ增大,摩擦角φ减小。当水泥掺量为15%时,界面角δ与摩擦角φ之间的最大百分比为63.5%。在重塑情况下,硬化的水泥附着在砂粒上,作为不同大小的土粒,导致土的剪切特性发生变化。
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来源期刊
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY MULTIDISCIPLINARY SCIENCES-
自引率
33.30%
发文量
33
审稿时长
16 weeks
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