Recovery and Restructuring of Fine and Coarse Soil Fractions as Earthen Construction Materials

Excessive consumption of natural resources to meet the growing demands of building and infrastructure projects has put enormous stress on these resources. On the other hand, a significant quantity of soil is excavated for development activities across the globe and is usually treated as waste materi...

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Published in:Sustainability 2024-10, Vol.16 (20), p.8952
Main Authors: Hussain, Mazhar, Lamrous, Ines, Provost, Antony, Leblanc, Nathalie, Zmamou, Hafida, Levacher, Daniel, Kane, Abdoulaye
Format: Article
Language:English
Subjects:
Agronomy
Building materials
Cement
Clay
Construction
Environmental aspects
Hazardous materials
Industrial wastes
Landfill
Materials research
Mechanical properties
Moisture content
Natural resources
Physics
Recycling
Sand & gravel
Shear strength
Soil structure
Soils
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container_issue 20
container_start_page 8952
container_title Sustainability
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creator Hussain, Mazhar
Lamrous, Ines
Provost, Antony
Leblanc, Nathalie
Zmamou, Hafida
Levacher, Daniel
Kane, Abdoulaye
description Excessive consumption of natural resources to meet the growing demands of building and infrastructure projects has put enormous stress on these resources. On the other hand, a significant quantity of soil is excavated for development activities across the globe and is usually treated as waste material. This study explores the potential of excavated soils in the Brittany region of France for its reuse as earthen construction materials. Characterization of soil recovered from building sites was carried out to classify the soils and observe their suitability for earthen construction materials. These characteristics include mainly Atterberg limits, granulometry, organic matter and optimum moisture content. Soil samples were separated into fine and coarse particles through wet sieving. The percentage of fines (particles smaller than 0.063 mm) in studied soil samples range from 28% to 65%. The methylene blue value (MBV) for Lorient, Bruz and Polama soils is 1, 1.2 and 1.2 g/100 g, and French classification (Guide de terrassements des remblais et des couches de forme; GTR) of soil samples is A1, B5 and A1, respectively. The washing of soils with lower fine content helps to recover excellent-quality sand and gravel, which are a useful and precious resource. However, residual fine particles are a waste material. In this study, three soil formulations were used for manufacturing earth blocks. These formulations include raw soil, fines and restructured soil. In restructured soil, a fine fraction of soil smaller than 0.063 mm was mixed with 15% recycled sand. Restructuring of soil fine particles helps to improve soil matrix composition and suitability for earth bricks. Compressed-earth blocks of 4 × 4 × 16 cm were manufactured at a laboratory scale for flexural strength testing by using optimum molding moisture content and compaction through Proctor normal energy. Compressive strength tests were performed on cubic blocks of size 4 × 4 × 4 cm. Mechanical testing of bricks showed that bricks with raw soil had higher resistance with a maximum of 3.4 MPa for Lorient soil. Removal of coarse particles from soil decreased the strength of bricks considerably. Restructuring of fines with recycled sand improves their granular skeleton and increases the compressive strength and durability of bricks.
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subjects Agronomy
Building materials
Cement
Clay
Construction
Environmental aspects
Hazardous materials
Industrial wastes
Landfill
Materials research
Mechanical properties
Moisture content
Natural resources
Physics
Recycling
Sand & gravel
Shear strength
Soil structure
Soils
title Recovery and Restructuring of Fine and Coarse Soil Fractions as Earthen Construction Materials
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