From agave to earthen architecture. Use of natural fibers from agro-industrial waste in the manufacture of biocomposite adobe

Mauricio Ruiz Serrano; Héctor Serrano Barquín; Andrés Ruiz Serrano

doi:10.37558/GEC.V25I1.1257

From agave to earthen architecture. Use of natural fibers from agro-industrial waste in the manufacture of biocomposite adobe

Mauricio Ruiz Serrano
, Héctor Serrano Barquín
, Andrés Ruiz Serrano

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Adobe is resistant to sudden temperature changes and fire, acting as an effective thermal and acoustic barrier in construction. This article investigates the thermal, resistance, compression, plasticity and absorption properties of biocomposite adobe, proposing that the combination of adobe with agave bagasse significantly improves its efficiency compared to blocks composed of zacate, agave fibers and soil. This study was conducted in a mezcal and traditional adobe producing area in the State of Mexico, in line with the principles of circular economy. Results indicate that adobe enriched with agave bagasse presents several improvements in its physical and mechanical properties, which reduces its environmental impact. This research highlights the importance of adobe as a fundamental element in the revaluation of earthen architecture, contributing to the promotion of heritage identity.

Original language	English
Pages (from-to)	44-52
Number of pages	9
Journal	Ge-Conservacion
Volume	25
Issue number	1
DOIs	https://doi.org/10.37558/GEC.V25I1.1257
Publication status	Published - 2024
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 8 Decent Work and Economic Growth
SDG 12 Responsible Consumption and Production

Keywords

agave bagasse
biocomposite adobe
earthen architecture
sustainable building

Access to Document

10.37558/GEC.V25I1.1257

Cite this

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title = "From agave to earthen architecture. Use of natural fibers from agro-industrial waste in the manufacture of biocomposite adobe",

abstract = "Adobe is resistant to sudden temperature changes and fire, acting as an effective thermal and acoustic barrier in construction. This article investigates the thermal, resistance, compression, plasticity and absorption properties of biocomposite adobe, proposing that the combination of adobe with agave bagasse significantly improves its efficiency compared to blocks composed of zacate, agave fibers and soil. This study was conducted in a mezcal and traditional adobe producing area in the State of Mexico, in line with the principles of circular economy. Results indicate that adobe enriched with agave bagasse presents several improvements in its physical and mechanical properties, which reduces its environmental impact. This research highlights the importance of adobe as a fundamental element in the revaluation of earthen architecture, contributing to the promotion of heritage identity.",

keywords = "agave bagasse, biocomposite adobe, earthen architecture, sustainable building",

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T1 - From agave to earthen architecture. Use of natural fibers from agro-industrial waste in the manufacture of biocomposite adobe

AU - Serrano, Mauricio Ruiz

AU - Barquín, Héctor Serrano

AU - Serrano, Andrés Ruiz

PY - 2024

Y1 - 2024

N2 - Adobe is resistant to sudden temperature changes and fire, acting as an effective thermal and acoustic barrier in construction. This article investigates the thermal, resistance, compression, plasticity and absorption properties of biocomposite adobe, proposing that the combination of adobe with agave bagasse significantly improves its efficiency compared to blocks composed of zacate, agave fibers and soil. This study was conducted in a mezcal and traditional adobe producing area in the State of Mexico, in line with the principles of circular economy. Results indicate that adobe enriched with agave bagasse presents several improvements in its physical and mechanical properties, which reduces its environmental impact. This research highlights the importance of adobe as a fundamental element in the revaluation of earthen architecture, contributing to the promotion of heritage identity.

AB - Adobe is resistant to sudden temperature changes and fire, acting as an effective thermal and acoustic barrier in construction. This article investigates the thermal, resistance, compression, plasticity and absorption properties of biocomposite adobe, proposing that the combination of adobe with agave bagasse significantly improves its efficiency compared to blocks composed of zacate, agave fibers and soil. This study was conducted in a mezcal and traditional adobe producing area in the State of Mexico, in line with the principles of circular economy. Results indicate that adobe enriched with agave bagasse presents several improvements in its physical and mechanical properties, which reduces its environmental impact. This research highlights the importance of adobe as a fundamental element in the revaluation of earthen architecture, contributing to the promotion of heritage identity.

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KW - earthen architecture

KW - sustainable building

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M3 - Article

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From agave to earthen architecture. Use of natural fibers from agro-industrial waste in the manufacture of biocomposite adobe

Abstract

UN SDGs

Keywords

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