Use of recycled concrete and rice husk ash for concrete: A review

Muñoz Pérez, S. P; Sánchez Díaz, E.; Barboza-Cullqui, D.; García-Chumacero, J. M.

doi:10.22201/icat.24486736e.2024.22.1.2248

JART

2024

DOI: 10.22201/icat.24486736e.2024.22.1.2248

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Use of recycled concrete and rice husk ash for concrete: A review

S. P Muñoz Pérez,

E. Sánchez Díaz,

D. Barboza-Cullqui

et al.

Abstract: The rapid development of populations and the demand in the consumption of concrete is generating the need to produce larger quantities of cement, which brings with it negative effects for the environment. Approximately 0.87 kg of CO2 is produced by the manufacture of cement; In addition, the use of aggregates is generating great concern in the construction industry, due to the costs and the restriction of these. Similarly, the accumulation of construction and demolition waste (RCA) and rice husk ash (RHA) cont… Show more

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Cited by 7 publications

References 67 publications

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Maximizing strength and durability in wood concrete (arbolite) via innovative additive control and consumption

Yagubkin,

Shabanov,

Niyakovskii

et al. 2024

Biomass Conv. Bioref.

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A new approach for assessing the effectiveness and determining the consumption of additives to regulate the structural and mechanical characteristics of wood concrete is proposed, which allows rapid assessment in a short time and reduces the consumption of materials. The period is reduced from 28 to 1 day, and the sample sizes are reduced from 150 × 150 × 150 to 20 × 20 × 20 mm compared to those of the standard method. The results obtained are comparable using both methods within an error of up to 7%. The thermal conductivity of wood concrete with the addition of potassium sulfate was 20.8% less than that with the addition of calcium chloride. This reduction will reduce wall thickness, material consumption, and cost by 20.8%. In this regard, potassium sulfate, which does not form crystalline hydrates and makes it possible to obtain a material with lower thermal conductivity than other additives, all other things being equal, has a new advantage for wood concrete. In addition, potassium sulfate reduces the risk of corrosion of cement stone because one of the main causes of corrosion is crystalline hydrates. Reducing the risk of corrosion will increase the durability of the material.

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Maximizing strength and durability in wood concrete (arbolite) via innovative additive control and consumption

Yagubkin,

Shabanov,

Niyakovskii

et al. 2024

Biomass Conv. Bioref.

View full text Add to dashboard Cite

show abstract

Sustainable use of wood sawdust as a replacement for fine aggregate to improve the properties of concrete: a Peruvian case study

Cabanillas Hernandez,

García Chumacero,

Villegas Granados

et al. 2024

Innov. Infrastruct. Solut.

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Mechanical characterization of Rice Husk Ash incorporated bituminous concrete

SaiMadhu,

Sasidharan,

Kadiroli

et al. 2024

Innov. Infrastruct. Solut.

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Use of recycled concrete and rice husk ash for concrete: A review

Cited by 7 publications

References 67 publications

Maximizing strength and durability in wood concrete (arbolite) via innovative additive control and consumption

Maximizing strength and durability in wood concrete (arbolite) via innovative additive control and consumption

Sustainable use of wood sawdust as a replacement for fine aggregate to improve the properties of concrete: a Peruvian case study

Mechanical characterization of Rice Husk Ash incorporated bituminous concrete

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