Micro-analysis Tanah Ekspansif yang Diperbaiki Secara Kimiawi

Borneo Engineering : Jurnal Teknik Sipil Pub Date : 2023-04-23 DOI:10.35334/be.v1i1.3078

A. S. S. Gunarti, Fajar Prihesnanto

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Abstract

Road construction on expansive soil faces many problems such as deflection, longitudinal cracks, circular cracks and spreading cracks in road construction due to the large nature of swelling and shrinkage. This study aims to identify changes in the mineralogy microstructure and chemical properties of the soil in chemically corrected expansive soils so that solutions for expansive soil improvement are obtained by utilizing local materials based on industrial waste, namely Fly ash and Waste Foundry Sand. The research method is in the form of laboratory experiments, namely Structure Electron Microscope and XRD tests on native soil and soil stabilized with Fly ash and Waste Foundry Sand to analyze mineral structure and chemical changes. The results of the analysis found that the effect of the two types of additives on expansive soils was descriptively significant. The addition of fly ash and WFS to the soil makes the pores and cracks filled with fly ash particles and some form of hydration. After the addition of Fly ash and WFS, ion exchange and pozzolanic reactions from fly ash occur to make the flake and flocculant structure of the soil cement into a crystal or block structure, thereby increasing the compactness and integrity of the soil sample.

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膨胀土由于胀缩性质大，在道路施工中面临挠曲、纵向裂缝、圆形裂缝、扩张性裂缝等诸多问题。本研究旨在确定化学修正膨胀土中土壤的矿物学微观结构和化学性质的变化，从而利用以工业废料为基础的当地材料，即粉煤灰和废铸造砂，获得膨胀土改良的解决方案。研究方法采用室内实验的形式，即对原生土和粉煤灰、废铸造砂稳定土进行结构电镜和XRD测试，分析矿物结构和化学变化。分析结果表明，两种添加剂对膨胀土的影响具有显著的描述性。粉煤灰和WFS的加入使孔隙和裂缝充满了粉煤灰颗粒，并产生了某种形式的水化作用。粉煤灰和WFS加入后，粉煤灰发生离子交换和火山灰反应，使土壤水泥土的片状和絮凝剂结构变成晶体或块状结构，从而提高了土样的密实度和完整性。

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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Borneo Engineering : Jurnal Teknik Sipil

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