Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in Buildings

Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in Buildings

Exploring new construction materials with low environmental impact leads to innovation in buildings and also to the expansion of environmental sustainability in the construction industry. In this perspective, the thermal insulation and the sound absorption performances of Buriti (Mauritia flexuosa)...

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Main Authors: Felippe Fabrício dos Santos Siqueira, Renato Lemos Cosse, Fernando Augusto de Noronha Castro Pinto, Paulo Henrique Mareze, Caio Frederico e Silva, Lívio César Cunha Nunes
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Buildings
Subjects:
thermal conductivity
acoustic materials
natural resources
environmental sustainability
sustainable building materials
Online Access:https://www.mdpi.com/2075-5309/11/7/292
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spelling doaj-77d5fbf0246541c9a4365180c9c99ced2021-07-23T13:33:06ZengMDPI AGBuildings2075-53092021-07-011129229210.3390/buildings11070292Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in BuildingsFelippe Fabrício dos Santos Siqueira0Renato Lemos Cosse1Fernando Augusto de Noronha Castro Pinto2Paulo Henrique Mareze3Caio Frederico e Silva4Lívio César Cunha Nunes5Graduate Program in Materials Science and Engineering, Technology Center, Federal University of Piauí, Teresina 64049-550, PI, BrazilMacromolecular Chemistry & New Polymeric Materials, Zernike Institute for Advanced Materials, University of Groningen, 9712 CP Groningen, The NetherlandsLaboratory of Acoustics and Vibrations (LAVI), Graduate Program in Mechanical Engineering, Technology Center, Federal University of Rio de Janeiro, Rio de Janeiro 21941-901, RJ, BrazilAcoustic Engineering, Federal University of Santa Maria, Santa Maria 97105-900, RS, BrazilGraduate Program in Architecture and Urbanism, Faculty of Architecture and Urbanism, University of Brasília, Brasília 70910-900, DF, BrazilGraduate Program in Materials Science and Engineering, Technology Center, Federal University of Piauí, Teresina 64049-550, PI, BrazilExploring new construction materials with low environmental impact leads to innovation in buildings and also to the expansion of environmental sustainability in the construction industry. In this perspective, the thermal insulation and the sound absorption performances of Buriti (Mauritia flexuosa) foam were analyzed for potential application in buildings. This material is of plant origin, it is natural, renewable, abundant, and has a low environmental impact. In this research, characterizations were made by scanning electron microscopy (SEM), apparent density, thermogravimetry (TGA and DTG), thermal conductivity, and sound absorption. The SEM analysis revealed a predominantly porous, small, and closed-cell morphology in the vegetable foam. Due to its porosity and lightness, the material has an apparent density similar to other thermal insulating and sound-absorbing materials used commercially. The evaluation of thermogravimetric (TGA/DTG) results demonstrated thermal stability at temperatures that attest to the use of Buriti foam as a building material. Based on the thermal conductivity test, the Buriti foam was characterized as an insulating material comparable to conventional thermal insulation materials and in the same range as other existing thermal insulators of plant origin. Concerning sound absorption, the Buriti foam presented a low performance in the analyzed frequency range, mainly attributed to the absence of open porosity in the material. Therefore, understanding the sound absorption mechanisms of Buriti foam requires further studies exploring additional ways of processing the material.https://www.mdpi.com/2075-5309/11/7/292thermal conductivityacoustic materialsnatural resourcesenvironmental sustainabilitysustainable building materials
collection DOAJ
language English
format Article
sources DOAJ
author Felippe Fabrício dos Santos Siqueira
Renato Lemos Cosse
Fernando Augusto de Noronha Castro Pinto
Paulo Henrique Mareze
Caio Frederico e Silva
Lívio César Cunha Nunes
spellingShingle Felippe Fabrício dos Santos Siqueira
Renato Lemos Cosse
Fernando Augusto de Noronha Castro Pinto
Paulo Henrique Mareze
Caio Frederico e Silva
Lívio César Cunha Nunes
Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in Buildings
Buildings
thermal conductivity
acoustic materials
natural resources
environmental sustainability
sustainable building materials
author_facet Felippe Fabrício dos Santos Siqueira
Renato Lemos Cosse
Fernando Augusto de Noronha Castro Pinto
Paulo Henrique Mareze
Caio Frederico e Silva
Lívio César Cunha Nunes
author_sort Felippe Fabrício dos Santos Siqueira
title Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in Buildings
title_short Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in Buildings
title_full Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in Buildings
title_fullStr Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in Buildings
title_full_unstemmed Characterization of Buriti (<i>Mauritia flexuosa)</i> Foam for Thermal Insulation and Sound Absorption Applications in Buildings
title_sort characterization of buriti (<i>mauritia flexuosa)</i> foam for thermal insulation and sound absorption applications in buildings
publisher MDPI AG
series Buildings
issn 2075-5309
publishDate 2021-07-01
description Exploring new construction materials with low environmental impact leads to innovation in buildings and also to the expansion of environmental sustainability in the construction industry. In this perspective, the thermal insulation and the sound absorption performances of Buriti (Mauritia flexuosa) foam were analyzed for potential application in buildings. This material is of plant origin, it is natural, renewable, abundant, and has a low environmental impact. In this research, characterizations were made by scanning electron microscopy (SEM), apparent density, thermogravimetry (TGA and DTG), thermal conductivity, and sound absorption. The SEM analysis revealed a predominantly porous, small, and closed-cell morphology in the vegetable foam. Due to its porosity and lightness, the material has an apparent density similar to other thermal insulating and sound-absorbing materials used commercially. The evaluation of thermogravimetric (TGA/DTG) results demonstrated thermal stability at temperatures that attest to the use of Buriti foam as a building material. Based on the thermal conductivity test, the Buriti foam was characterized as an insulating material comparable to conventional thermal insulation materials and in the same range as other existing thermal insulators of plant origin. Concerning sound absorption, the Buriti foam presented a low performance in the analyzed frequency range, mainly attributed to the absence of open porosity in the material. Therefore, understanding the sound absorption mechanisms of Buriti foam requires further studies exploring additional ways of processing the material.
topic thermal conductivity
acoustic materials
natural resources
environmental sustainability
sustainable building materials
url https://www.mdpi.com/2075-5309/11/7/292
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