Assessing the Influence of Banana Leaf Ash as Pozzolanic Material for the Production of Green Concrete: A Mechanical and Microstructural Evaluation

Islam, Md. Hamidul; Law, David William; Gunasekara, Chamila; Sobuz, Md. Habibur Rahman; Rahman, Md. Nafiur; Habib, Md. Ahsan; Sabbir, Ashanul Kabir

doi:10.3390/ma17030720

Cited by 5 publications

(2 citation statements)

References 47 publications

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“…Of pozzolanic materials, one of the most exciting groups is that made up of biomass-burning ashes [4]. Agricultural waste is a sustainable energy resource, and some ash types that derive from biomass burning have pozzolanic characteristics [5,6]. Some like rice husk ash (RHA) have been studied for decades [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Binary and Ternary Blended Portland Cements Containing Different Types of Rice Husk Ash

Ordoñez,

Borrachero,

Monzó

et al. 2024

Preprint

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Rice husk ash (RHA) is agricultural waste with high silica content that has had proven technical feasibility as a pozzolanic material since the 1970s. Notwithstanding, its use in mortars and concrete is limited by the standards currently utilized in some countries where RHA production is high and the aforementioned pozzolanic material is not standardized. This is the case of Spain, one of the main rice producers in Europe. Nowadays, the high pressure placed on the Portland cement production sector to reduce energy use and CO2 emissions has given rise to a keen interest shown in mineral admixtures for cement manufacturing. In this research, we intend to establish the contribution of different RHA types to final blended Portland cement properties (symbol “H” was used to identify RHA in standardized cements). The experimental results demonstrated that RHA with good pozzolanic properties (large specific surface and high amorphous silica content) had to be limited to 10% cement replacement because of the severe reduction in workability at higher replacement percentages. RHA with lower reactivity, such as crystalline RHA, or fly ash (FA), can be used to prepare binary and ternary blended cements with reactive RHA. It is possible to design the following cements: CEM II/A-H and CEM II/A-(H-V) It would also be possible to design cement (CEM II/B-(H-V) with replacement values up to 30% and the same 28-day mechanical performance observed for the Portland cement without mineral addition.

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Section: Introductionmentioning

confidence: 99%

Binary and Ternary Blended Portland Cements Containing Different Types of Rice Husk Ash

Ordoñez,

Borrachero,

Monzó

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

“…Regarding the use of supplementary cementing materials-specifically pozzolanic materials-one of the most exciting groups is that composed of biomass-burning ashes [4]. Agricultural waste is a sustainable energy resource, and some ash types that are derived from biomass burning have pozzolanic characteristics [5,6]. Some, like rice husk ash (RHA), have been studied for decades [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Binary and Ternary Blended Portland Cements Containing Different Types of Rice Husk Ash

Ordoñez,

Borrachero,

Monzó

et al. 2024

Materials

View full text Add to dashboard Cite

Rice husk ash (RHA) is agricultural waste with high silica content that has exhibited proven technical feasibility as a pozzolanic material since the 1970s. Notwithstanding, its use in mortars and concrete is limited by the standards currently utilized in some countries where RHA production is high and the aforementioned pozzolanic material is not standardized. This is the case in Spain, one of the main rice producers in Europe. Nowadays, the high pressure placed on the Portland cement production sector to reduce its energy use and CO2 emissions has given rise to a keen interest in mineral admixtures for cement manufacturing. In this research, we intended to establish the contributions of different RHA types to the final blended Portland cement properties (“H” is used to identify RHA in standardized cements). The experimental results demonstrated that RHA with good pozzolanic properties (large specific surface and high amorphous silica content) had to be limited to 10% cement replacement because of the severe reduction in workability at higher replacement percentages. RHA with lower reactivity, such as crystalline RHA, or fly ash (FA) can be used to prepare binary and ternary blended cements with reactive RHA. It is possible to design the following cements: CEM II/A-H and CEM II/A-(H-V). It would also be possible to design cement (CEM II/B-(H-V) with replacement values of up to 30% and the same 28-day mechanical performance as observed for the Portland cement without mineral addition.

show abstract

An explainable machine learning model for encompassing the mechanical strength of polymer-modified concrete

Sobuz,

Khatun,

Kabbo

et al. 2024

Asian J Civ Eng

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Assessing the Influence of Banana Leaf Ash as Pozzolanic Material for the Production of Green Concrete: A Mechanical and Microstructural Evaluation

Cited by 5 publications

References 47 publications

Binary and Ternary Blended Portland Cements Containing Different Types of Rice Husk Ash

Binary and Ternary Blended Portland Cements Containing Different Types of Rice Husk Ash

Binary and Ternary Blended Portland Cements Containing Different Types of Rice Husk Ash

An explainable machine learning model for encompassing the mechanical strength of polymer-modified concrete

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