Resilient Module Soil-Cement Prediction based on Setting Temperature

Revista Ingenieria E Investigacion Pub Date : 2020-06-11 DOI:10.15446/ing.investig.v40n2.83120

Liliana Carolina Hernández García, Nelson Fernando Lizarazo Salamanca

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引用次数: 2

Abstract

This research correlates the setting temperature of the Soil Cement (SC) with its resilient modulus, based on the maturity index of three mixtures made with different types of cements: general use, High Early Resistance, and Moderate Heat of Hydration. Each mix design has a compressive strength of 4,5 MPa at 7 days of age and durability measured with the 10% wetting and drying test. The method consisted of curing the samples of the three mix designs at three different temperatures -11, 30, and 40 ◦C- and then monitoring the development of the temperature within the samples during the first thirty hours. At 28 days of age, the resistance modulus of the samples was measured with cyclic triaxial equipment. After analyzing the results, a linear equation was deduced which would facilitate quality control during the construction process. This prevents microcracking of the compacted layers, since their fracturing is not neccessary during the extraction of nuclei and field density tests. This research correlates the setting temperature of the Soil Cement (SC) with its resilient modulus, based on the maturity index ofthree mixtures made with different types of cements: general use, High Early Resistance, and Moderate Heat of Hydration. Eachmix design has a compressive strength of 4,5 MPa at 7 days of age and durability measured with the 10% wetting and drying test.The method consisted of curing the samples of the three mix designs at three different temperatures 11,30, and 40 Candthenmonitoring the development of the temperature within the samples during the first thirty hours. At 28 days of age, the resistancemodulus of the samples was measured with cyclic triaxial equipment. After analyzing the results, a linear equation was deducedwhich would facilitate quality control during the construction process. This prevents microcracking of the compacted layers, sincetheir fracturing is not neccessary during the extraction of nuclei and field density tests.

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基于凝固温度的弹性模组土-水泥预测

本研究以普通、高早阻和中等水化热三种不同类型水泥配制的混合料成熟度指标为基础，将土壤水泥的凝固温度与其弹性模量联系起来。每种配合比在7日龄时的抗压强度为4.5 MPa，在10%的干湿试验中测试了耐久性。该方法包括在三种不同的温度(11℃、30℃和40℃)下固化三种混合设计的样品，然后监测样品在前30小时内的温度变化。28日龄时，用循环三轴仪测量试件的电阻模量。通过对结果的分析，推导出一个便于施工过程质量控制的线性方程。这可以防止压实层的微破裂，因为在提取核和场密度测试期间，它们的破裂是不必要的。本研究基于三种不同类型水泥混合料的成熟度指数，即普通水泥、高早期阻力水泥和中等水化热水泥，将土壤水泥的凝固温度与其弹性模量联系起来。每种混合料在7天龄期的抗压强度为4.5 MPa，在10%的干湿试验中测试了耐久性。该方法包括在三种不同的温度(11、30和40℃)下养护三种混合设计的样品，然后监测样品在前30小时内的温度变化。28日龄时，用循环三轴装置测定样品的阻力模量。通过对结果的分析，推导出一个线性方程，便于施工过程中的质量控制。这可以防止压实层的微破裂，因为在提取核和场密度测试期间，它们的破裂是不必要的。

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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Revista Ingenieria E Investigacion

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