Microstructure of Fine Clay Soils Stabilized with Sugarcane Molasses

Malanda, Narcisse; Mfoutou, Nice Ngouallat; Madila, Erman Eloge Nzaba; Louzolo-Kimbembé, Paul

doi:10.4236/ojce.2022.122015

Cited by 5 publications

(5 citation statements)

References 9 publications

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“…On the whole, these results suggest that the molasses appears as the best in the optimization of the formulations and, consequently, this one contributes better to the improvement of thermo-mechanical performances of stabilized small bricks. Besides, this is justified in research works of Malanda and al (2022), in the microstructural behavior, and in coherence with works by Lima and al (2012), [13] [20].…”

Section: Discussionsupporting

confidence: 59%

“…The dyeing change of clays of stabilized small bricks reveals that there has probabily had an unexpected chemical reaction between the molasses and the clayey soil. This mechanical behavior can also be explained by the realized microstructural analysis [Malanda and al, 2022].  Resistance in compression of clay small bricks, stabilized with the cassava starch…”

Section: Mechanical Resistance To the Small Bricks' Compressionmentioning

confidence: 89%

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Thermo-Mechanical Properties Study of Stabilized Soil Bricks to Sugar Cane Molasses and Cassava Starch Binders

Malanda¹,

Nkaya²,

Ganga³

et al. 2023

OJAppS

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The current study deals Swith thermo-mechanical properties of stabilized soil small bricks with the help of organic binders of sugar cane molasses and cassava starch. Different formulations of soil concrete have been suggested after the geotechnical characterization of samples of soil was taken. From these, it arises that the studied soil is the most plastically clay (of type A 3 ) according to GTR classification. Samples made of small bricks and measured out at 4%, 6% and 8% of binders (molasses, starch or molasses + starch) have been warmed up to different temperatures (100˚C, 150˚C, 200˚C and 250˚C) for the rising of the thermic behavior under different conditions and submitted to crushing testings for the estimation of characteristic resistances to the compression. According to the mechanical behavior, we note an improvement of resistances for small bricks measured 4%, 6% and 8%, of molasses respectively of 32.44%, 32.06% and 23.43% against the value of reference for small bricks without molasses. In the same way, the binder (molasses + starch) also reveals an improvement of resistance to the compression of 13.27%, 26.17% and 26.17%. On the contrary, the stabilization with the starch binder did not bring a significative improvement. According to the thermic influence, the heating at 100˚C of stabilized small bricks at 4%, 6% and 8% of molasses, reveals a significative improvement of resistances. Moreover, the stabilization with the starch reveals on the contrary a good behavior for heatings at 150˚C and 250˚C. In short, for the binder (molasses + starch), it is the heating at 200˚C that shows some improvements of remarkable resistances. Different analyses of realized statistics also show the effectivity of obtained results.

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Section: Discussionsupporting

confidence: 59%

Section: Mechanical Resistance To the Small Bricks' Compressionmentioning

confidence: 89%

Thermo-Mechanical Properties Study of Stabilized Soil Bricks to Sugar Cane Molasses and Cassava Starch Binders

Malanda¹,

Nkaya²,

Ganga³

et al. 2023

OJAppS

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“…From a microstructural point of view, we have also observed the presence of inter-aggregate pores (mesopores) in the various samples analyzed, which suggests an evolution of the open soil structure towards a dense granular matrix [4]. However, the aim of this study is to compare four statistical thickness models: the Carbon Black model, the Harkins and Jura model, the Hasley model and the Jaroniec et al model, in the case of clayey concrete stabilized with sugarcane molasses, in order to find the optimum model that best simulates the phenomenon.…”

Section: Introductionmentioning

confidence: 70%

“…This change compared to unsterilized clayey concrete leads us to believe that stabilization using molasses brings about modifications to the external surface of clayey concrete by occupying the pores [4]. Ngouallat Mfoutou (2020) reports that 53.10 8 molasses molecules occupy the accessible surface of clay concrete [3].…”

Section: Samples Stabilized With 16% Cane Molassesmentioning

confidence: 99%

Comparative Analysis of Statistical Thickness Models for the Determination of the External Specific Surface and the Surface of the Micropores of Materials: The Case of a Clay Concrete Stabilized Using Sugar Cane Molasses

Ngouallat,

Malanda,

Malanda

et al. 2024

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In this work, four empirical models of statistical thickness, namely the models of Harkins and Jura, Hasley, Carbon Black and Jaroniec, were compared in order to determine the textural properties (external surface and surface of micropores) of a clay concrete without molasses and clay concretes stabilized with 8%, 12% and 16% molasses. The results obtained show that Hasley's model can be used to obtain the external surfaces. However, it does not allow the surface of the micropores to be obtained, and is not suitable for the case of simple clay concrete (without molasses) and for clay concretes stabilized with molasses. The Carbon Black, Jaroniec and Harkins and Jura models can be used for clay concrete and stabilized clay concrete. However, the Carbon Black model is the most relevant for clay concrete and the Harkins and Jura model is for molasses-stabilized clay concrete. These last two models augur well for future research.

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“…Molasses is a by-product of sugar production and is produced worldwide [ 18 , 19 ]. Many studies have shown that molasses can effectively bond to particulate matter [ 19 , 20 , 21 ]. For example, Benk and Coban [ 22 ] showed that molasses can substitute cement as a binder material to produce lightweight and heat-insulating bricks.…”

Section: Introductionmentioning

confidence: 99%

Suppression Characteristics and Mechanism of Molasses Solution on Coal Dust: A Low-Cost and Environment-Friendly Suppression Method in Coal Mines

Liu

Wang

Jin

et al. 2022

IJERPH

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Coal dust pollution poses a serious public health threat. This study aimed to investigate the feasibility of creating a coal dust suppressant using molasses, a byproduct of the sugar industry. We studied the effects of a molasses solution of varying concentrations (i.e., ranging from 0% (pure water) to 40%) on the moisture, bonding, and wind erosion properties of coal dust. Overall, the effectiveness of the molasses increased with their concentration, and it manifested itself in the following way: (1) the molasses improved the anti-evaporation ability of wet coal dust. For example, the evaporation mass of the coal dust wetted using a molasses solution decreased by 82.8%; (2) molasses effectively agglutinated coal dust; (3) molasses can effectively decrease the surface tension and increase the viscosity of the wetting solution. The surface tension of the molasses solution reached 41.37 mN/m and the viscosity increased to 6.79 mPa·s; (4) molasses can significantly suppress the wind erosion of deposited coal dust, with its wind erosion mass decreasing 99.1%; finally, (5) the effectiveness of molasses at suppressing coal dust was discussed at a molecular level. This study highlights the feasibility of a low-cost and environment-friendly dust suppressant in coal mines.

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Microstructure of Fine Clay Soils Stabilized with Sugarcane Molasses

Cited by 5 publications

References 9 publications

Thermo-Mechanical Properties Study of Stabilized Soil Bricks to Sugar Cane Molasses and Cassava Starch Binders

Thermo-Mechanical Properties Study of Stabilized Soil Bricks to Sugar Cane Molasses and Cassava Starch Binders

Comparative Analysis of Statistical Thickness Models for the Determination of the External Specific Surface and the Surface of the Micropores of Materials: The Case of a Clay Concrete Stabilized Using Sugar Cane Molasses

Suppression Characteristics and Mechanism of Molasses Solution on Coal Dust: A Low-Cost and Environment-Friendly Suppression Method in Coal Mines

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