Factors Affecting Properties of Polymer Grouted Sands

CivilEng Pub Date : 2024-01-11 DOI:10.3390/civileng5010004

C. Anagnostopoulos, Vasilios Aggelidis

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Abstract

The aim of this research was to undertake laboratory testing to investigate the beneficial effects of epoxy resin grouts on the physical and mechanical properties of sands with a wide range of granulometric characteristics. Six sands of different particle size and uniformity coefficients were grouted using epoxy resin solutions with three ratios of epoxy resin to water (3.0, 2.0 and 1.5). A set of unconfined compressive strength tests were conducted on the grouted samples at different curing periods and a set of long-term unconfined compressive creep tests in dry and wet conditions after 180 days of curing were also carried out in order to evaluate the development of the mechanical properties of the sands, as well as the impact of water on them. The findings of the investigation showed that epoxy resin resulted in appreciable strength values in the specimens, especially those of fine sands or well graded sands, grouted with the different epoxy resin grouts. Whilst the higher compressive strength and elastic modulus values at the age of 180 days were obtained for the finer sand, which ranged from 2.6 to 5.6 MPa and 216 to 430 MPa, respectively, the lower compressive strength and elastic modulus values were attained for the coarser sand with low values of the coefficient of uniformity, which varied from 0.68 to 2.2 MPa and 75 to 185 MPa, respectively. Moreover, all grouted sands showed stable long-term creep behaviour, with high values of the creep limit ranging from 67.5 to 80% of compressive strength. The presence of water had a negative marginal effect in the majority of the grouted specimens. In terms of physical properties, the permeability and porosity were estimated. The permeability of fine sands or well graded sands was decreased by two to four orders of magnitude. Using laboratory results and regression analysis, three mathematical equations were developed that relate each of the dependent variables of compressive strength, elastic modulus and coefficient of permeability to particular explanatory variables.

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影响聚合物灌浆砂性能的因素

这项研究的目的是进行实验室测试，研究环氧树脂灌浆对具有各种粒度特征的砂的物理和机械性能的有利影响。使用环氧树脂与水的三种比率（3.0、2.0 和 1.5）的环氧树脂溶液对六种不同粒度和均匀系数的砂进行了灌浆。在不同的固化期对灌浆样品进行了一组无压抗压强度试验，并在固化 180 天后，在干燥和潮湿条件下进行了一组长期无压蠕变试验，以评估砂的机械性能的发展以及水对它们的影响。研究结果表明，环氧树脂能使试样，特别是用不同环氧树脂灌浆料灌浆的细砂或级配良好的砂的试样，产生明显的强度值。细砂在 180 天龄期的抗压强度和弹性模量值较高，分别为 2.6 至 5.6 兆帕和 216 至 430 兆帕，而均匀系数较低的粗砂的抗压强度和弹性模量值较低，分别为 0.68 至 2.2 兆帕和 75 至 185 兆帕。此外，所有灌浆砂都表现出稳定的长期蠕变特性，蠕变极限值较高，从抗压强度的 67.5%到 80%不等。在大多数灌浆试样中，水的存在具有负面的边际效应。在物理特性方面，对渗透性和孔隙率进行了估算。细砂或级配良好的砂的渗透性降低了 2 到 4 个数量级。利用实验室结果和回归分析，建立了三个数学方程，将抗压强度、弹性模量和渗透系数等每个因变量与特定的解释变量联系起来。

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来源期刊

CivilEng

CiteScore

2.80

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0.00%

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