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Engineering Properties and Micropore Structure of Clay-Based Foamed Lightweight Soil

Zheng Lu, Yang Zhao, Jie Liu, Xuze Yuan, Hailin Yao, Chuxuan Tang, Rong Zhang

2023Journal of Materials in Civil Engineering12 citationsDOI

Abstract

Foam lightweight soil (FLS) has been widely used in geotechnical engineering because of their high strength, low density, and thermal insulation. However, few scholars have researched its application to subgrade engineering, especially roadbed widening. In this case, this special artificial soil can significantly reduce the differential settlement of subgrades due to its lightweight and high strength. In the research background, a series of laboratory experiments were conducted to investigate the effects of mixing ratio and fibers on the physical, mechanical, and microporous structural properties of clay-based foamed lightweight soils (CFLS), with clay and cement as the main raw materials. The experimental results indicate that preparing CFLS for road widening using clay soils from around highways as raw materials is an alternative treatment method. During the application process, one should select the optimal mixing ratio and fiber content considering the fluidity, stability, and mechanical strength of CFLS. In addition, the dynamic modulus of elasticity and cumulative plastic strain of CFLS samples also indicate that CFLS has superior dynamic properties compared with cohesive soils and can meet the criteria for road construction.

Topics & Concepts

SubgradeGeotechnical engineeringMasonryMaterials scienceSoil stabilizationSettlement (finance)Raw materialSoil waterBrittlenessCementEnvironmental scienceComposite materialCivil engineeringEngineeringSoil scienceOrganic chemistryComputer sciencePaymentChemistryWorld Wide WebGeotechnical Engineering and Soil StabilizationGrouting, Rheology, and Soil MechanicsGeotechnical Engineering and Analysis
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