Hadi Fatehi scite author profile

Soil improvement using biopolymers has attracted considerable attention in recent years, with the aim to reduce the harmful environmental effects of traditional materials, such as cement. This paper aims to provide a review on the environmental assessment of using biopolymers as binders in soil improvement, biopolymer-treated soil characteristics, as well as the most important factors affecting the behavior of the treated soil. In more detail, environmental benefits and concerns about the use of biopolymers in soil improvement as well as biopolymer–soil interaction are discussed. Various geotechnical properties are evaluated and compared, including the unconfined compressive strength, shear strength, erosion resistance, physical properties, and durability of biopolymer-treated soils. The influential factors and soil and environmental conditions affecting various geotechnical characteristics of biopolymer-treated soils are also discussed. These factors include biopolymer concentration in the biopolymer–soil mixture, moisture condition, temperature, and dehydration time. Potential opportunities for biopolymers in geotechnical engineering and the challenges are also presented.

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Strengthening of Dune Sand with Sodium Alginate Biopolymer

Fatehi¹,

Bahmani²,

Noorzad³

2019

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Effects of Protein-Based Biopolymer on Geotechnical Properties of Salt-Affected Sandy Soil

et al. 2022

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The Effects of Particle Size Distribution and Moisture Variation on Mechanical Strength of Biopolymer-Treated Soil

Fatehi

Ong

et al. 2023

Polymers

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Biopolymers have recently shown great potential to replace traditional binding materials in geotechnical engineering; however, more research is required to reach a deeper understanding of biopolymer-treated soil behavior. The objective of this study was to investigate the most important parameters that affect the behavior of biopolymer-treated soil, including biopolymer content, dehydration time, soil type effect, and durability. Sodium alginate and agar biopolymers were used due to their stability under severe conditions and the reasonable costs to study these parameters. A broad range of soil particle sizes was used to optimize the kaolinite-sand combination. As one of the main concerns in the behavior of biotreated soils, durability was investigated under five cycles of wetting and drying. In addition, a comprehensive microstructural study was performed by FTIR analysis and SEM images, as well as chemical interaction analysis. The results indicated that the optimized biopolymer content was in the range of 0.5–1% (to soil weight) and the dehydration time was 14 days. A soil combination of 25% kaolinite and 75% sand provided the highest compressive strength. Under wetting and drying conditions, biopolymers significantly increased soil resistance against strength reduction and soil mass loss. The results showed that the biopolymers, agar and sodium alginate provided significant soil improvement. The optimum values of different parameters to reach the highest performance were also obtained. In addition, the biopolymers were highly effective in enhancing the durability of the treated soil under wetting and drying conditions. Based on the results, optimal values of the agar and sodium alginate-treated soil for sand and kaolinite are confirmed.

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Hadi Fatehi

A novel study on using protein based biopolymers in soil strengthening

Biopolymers as Green Binders for Soil Improvement in Geotechnical Applications: A Review

Strengthening of Dune Sand with Sodium Alginate Biopolymer

Effects of Protein-Based Biopolymer on Geotechnical Properties of Salt-Affected Sandy Soil

The Effects of Particle Size Distribution and Moisture Variation on Mechanical Strength of Biopolymer-Treated Soil

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