Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, China

Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, China

In this study, physical experiments, clay mineral determination, and pH testing were performed to examine the basic properties of soil samples from a soil material yard selected for dam construction at Hua’ao Lake, Qian’an County, Jilin Province, China. The results show that the soil in the study ar...

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Main Authors: Jun Yang, Yi Song, Rui Fu, Changwei Lu, Hongcheng Liu
Format: Article
Language:English
Published: Hindawi-Wiley 2021-01-01
Series:Geofluids
Online Access:http://dx.doi.org/10.1155/2021/6267212
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spelling doaj-6ea3ffba82d640abb78444821c1877f02021-09-27T00:52:48ZengHindawi-WileyGeofluids1468-81232021-01-01202110.1155/2021/6267212Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, ChinaJun Yang0Yi Song1Rui Fu2Changwei Lu3Hongcheng Liu4Jilin Province Water Resource and Hydropower Consultative Company of P R ChinaJilin Province Water Resource and Hydropower Consultative Company of P R ChinaJilin Province Water Resource and Hydropower Consultative Company of P R ChinaJilin Province Water Resource and Hydropower Consultative Company of P R ChinaJilin Province Water Resource and Hydropower Consultative Company of P R ChinaIn this study, physical experiments, clay mineral determination, and pH testing were performed to examine the basic properties of soil samples from a soil material yard selected for dam construction at Hua’ao Lake, Qian’an County, Jilin Province, China. The results show that the soil in the study area is cohesive, the mineral content of illite in the illite/montmorillonite mixed layer is approximately 50%, and the pH value of the environment from which the soil samples were taken is 8.43-8.91. These factors enable the soil in this area to be dispersed. The dispersibility of the soil sampled from this area was evaluated by a double hydrometer test, a pinhole test, a fragmentation test, a sodium adsorption ratio test, and determination of the percentage of exchangeable sodium ions. Because these test methods had inconsistent results, the test methods in combination with the typical geomorphic conditions of the sampling points were ultimately used to comprehensively evaluate the soil dispersion. The results demonstrate that the cohesive soil sampled from the soil material yard is dispersible and must be treated with improvement measures before it can be used as a filling material for the dam. To improve the dispersive and transitional soil, 2%, 3%, 4%, 5%, and 6% L1Fa2 (a 1 : 2 ratio of lime and fly ash) and C1L1Fa4 (a 1 : 1 : 4 ratio of cement, lime, and fly ash) were used to perform improvement tests on 10 groups of dispersive soil samples and 10 groups of transitional soil samples. The results reveal that the addition of 4% L1Fa2 best improves the dispersive soil in this area. Therefore, the soil intended for this project should be used as a dam-building material after improvement with the 4% addition of L1Fa2.http://dx.doi.org/10.1155/2021/6267212
collection DOAJ
language English
format Article
sources DOAJ
author Jun Yang
Yi Song
Rui Fu
Changwei Lu
Hongcheng Liu
spellingShingle Jun Yang
Yi Song
Rui Fu
Changwei Lu
Hongcheng Liu
Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, China
Geofluids
author_facet Jun Yang
Yi Song
Rui Fu
Changwei Lu
Hongcheng Liu
author_sort Jun Yang
title Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, China
title_short Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, China
title_full Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, China
title_fullStr Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, China
title_full_unstemmed Experimental Study on the Comprehensive Identification and Improvement of Dispersive Soil in Western Jilin Province, China
title_sort experimental study on the comprehensive identification and improvement of dispersive soil in western jilin province, china
publisher Hindawi-Wiley
series Geofluids
issn 1468-8123
publishDate 2021-01-01
description In this study, physical experiments, clay mineral determination, and pH testing were performed to examine the basic properties of soil samples from a soil material yard selected for dam construction at Hua’ao Lake, Qian’an County, Jilin Province, China. The results show that the soil in the study area is cohesive, the mineral content of illite in the illite/montmorillonite mixed layer is approximately 50%, and the pH value of the environment from which the soil samples were taken is 8.43-8.91. These factors enable the soil in this area to be dispersed. The dispersibility of the soil sampled from this area was evaluated by a double hydrometer test, a pinhole test, a fragmentation test, a sodium adsorption ratio test, and determination of the percentage of exchangeable sodium ions. Because these test methods had inconsistent results, the test methods in combination with the typical geomorphic conditions of the sampling points were ultimately used to comprehensively evaluate the soil dispersion. The results demonstrate that the cohesive soil sampled from the soil material yard is dispersible and must be treated with improvement measures before it can be used as a filling material for the dam. To improve the dispersive and transitional soil, 2%, 3%, 4%, 5%, and 6% L1Fa2 (a 1 : 2 ratio of lime and fly ash) and C1L1Fa4 (a 1 : 1 : 4 ratio of cement, lime, and fly ash) were used to perform improvement tests on 10 groups of dispersive soil samples and 10 groups of transitional soil samples. The results reveal that the addition of 4% L1Fa2 best improves the dispersive soil in this area. Therefore, the soil intended for this project should be used as a dam-building material after improvement with the 4% addition of L1Fa2.
url http://dx.doi.org/10.1155/2021/6267212
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