Effectiveness Of Portland Cement Type 1 In Stabilizing Soft Clay Soil As Subgrade For Road Construction

Jurnal Rekayasa Sipil (JRS-Unand) Pub Date : 2023-03-31 DOI:10.25077/jrs.19.1.44-53.2023

Dedi Iskandar, E. E. Putri, A. Hakam, A. Fitri

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Abstract

Sawah Lunto – Talawi road segment (STA 139 + 700 m) in Sawah Lunto city, West Sumatera province has sustained major damages and been the scene of several accidents since the past few years. The degression of soft clay subgrade, which has a limited bearing capacity and makes it structurally impractical to sustain road construction, was discovered to be the source of these damages. As a recent option for enhancing soil qualities, soil stabilization by employing a variety of pozzolanic and industrial materials has gained popularity. The objective of this study is to investigate the effectiveness of Portland cement type 1 as stabilizing material in improving the soil properties and carrying capacity requirements for soft clay soil used as subgrade in road construction. To accomplish the objectives of this study, a laboratory testing procedure was implemented. Unconfined Compressive Strength (USC) values on natural soil and treated soil with Portland cement type 1 admixture were measured and compared during laboratory experiments. Soft clay soils were stabilized with varying percentages of Portland cement type 1 with the proportions of approximately 1%, 2%, 3%, 4%, 5%, 6%, 7%, and 10% by dry weight of soil during a 7-days curing period. Laboratory testing were performed in compliance with Indonesian National Standard (SNI): SNI 3420-2008 for testing Unconfined Compressive Strength. According to the results of laboratory testing, the UCS values increased roughly from 0.634 kg/cm2 (undisturbed natural soil) to 2.832 kg/cm2 (treated soil) by adding 3% of Portland cement type 1, and up to 8,024 kg/cm2 (treated soil) by adding 10% of Portland cement type 1. Based on the findings, it can be demonstrated that Portland cement type 1 can enhance clay soil's properties used as a subgrade for road construction, can create more stable road conditions, and can ultimately meet the technical feasibility requirements for the subgrade carrying capacity, particularly at the Sawah Lunto - Talawi road segment (STA 139 + 700 m).

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1型硅酸盐水泥作为公路路基稳定软粘土的效果

西苏门答腊省Sawah Lunto市的Sawah Lunto - Talawi路段(STA 139 + 700米)在过去几年中遭受了重大破坏，并发生了几起事故。软土路基的退化是造成这些破坏的主要原因，因为软土路基的承载力有限，在结构上无法支撑道路建设。作为最近提高土壤质量的一种选择，采用各种火山灰和工业材料来稳定土壤已经得到了普及。本研究的目的是研究1型波特兰水泥作为稳定材料在改善道路建设中用作路基的软粘土的土壤性质和承载能力要求方面的有效性。为了达到本研究的目的，实施了实验室测试程序。通过室内试验，对天然土和1型硅酸盐水泥外加剂处理土的无侧限抗压强度(USC)进行了测量和比较。在7天的养护期内，采用不同比例的1型硅酸盐水泥(按土壤干重比例分别为1%、2%、3%、4%、5%、6%、7%和10%)稳定软粘土。实验室测试按照印尼国家标准(SNI): SNI 3420-2008进行无侧限抗压强度测试。根据实验室测试结果，当添加3%的1型波特兰水泥时，UCS值从0.634 kg/cm2(未受扰动的天然土)大致增加到2.832 kg/cm2(处理土)，当添加10%的1型波特兰水泥时，UCS值达到8024 kg/cm2(处理土)。综上所述，1型波特兰水泥可以提高粘土作为道路建设路基的性能，可以创造更稳定的道路条件，并最终满足路基承载能力的技术可行性要求，特别是在Sawah Lunto - Talawi路段(STA 139 + 700 m)。

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Jurnal Rekayasa Sipil (JRS-Unand)

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