Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.

Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.

This paper proposes a SIP (Structural Insulated Panel) type composite panel prototype, a structural thermal panel, as a building envelope wall made of renewable natural materials, specifically bamboo and recycled cardboard. The panel consists of two external OSB (Oriented Strand Board) boards, orien...

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Huvudupphovsman: Cassandro-Cajiao, Renato
Materialtyp: Online
Språk:spa
eng
Publicerad: Universidad Católica de Colombia 2018
Länkar:https://revistadearquitectura.ucatolica.edu.co/article/view/2116
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id oai:editorial.ucatolica.edu.co:article-2116
record_format ojs
institution Universidad Católica de Colombia
collection OJS
language spa
eng
format Online
author Cassandro-Cajiao, Renato
spellingShingle Cassandro-Cajiao, Renato
Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.
author_facet Cassandro-Cajiao, Renato
author_sort Cassandro-Cajiao, Renato
title Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.
title_short Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.
title_full Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.
title_fullStr Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.
title_full_unstemmed Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.
title_sort structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region.
description This paper proposes a SIP (Structural Insulated Panel) type composite panel prototype, a structural thermal panel, as a building envelope wall made of renewable natural materials, specifically bamboo and recycled cardboard. The panel consists of two external OSB (Oriented Strand Board) boards, oriented chipboard, and an intermediate cardboard insulation. In the study, two experimental SIP models are developed, using different manufacturing processes, which are analyzed and compared with four commercial references worldwide. All the panels are simulated thermally and acoustically in the climatic and meteorological conditions of the city of Pereira (Risaralda), in order to evaluate and compare the results, demonstrating thus the viability and competitiveness of the proposed prototype. In addition, this study aims to serve as a reference point for future research in the search for better sustainable construction materials.
publisher Universidad Católica de Colombia
publishDate 2018
url https://revistadearquitectura.ucatolica.edu.co/article/view/2116
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AT cassandrocajiaorenato muropaneltermicoestructuralcompuestoenguaduaycartonmodeloexperimentalaplicadoalclimadelazonacafetera
AT cassandrocajiaorenato muropaineltermicoestruturalcompostodebambuepapelaomodeloexperimentalaplicadoaoclimadazonacafeeira
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spelling oai:editorial.ucatolica.edu.co:article-21162020-07-23T23:10:14Z Structural thermal panel wall composed of bamboo and cardboard : experimental model applied to the climate of the coffee region. Muro panel térmico estructural compuesto en guadua y cartón : modelo experimental aplicado al clima de la zona cafetera. Muro painel térmico estrutural composto de bambu e papelão : modelo experimental aplicado ao clima da zona cafeeira. Cassandro-Cajiao, Renato environmental contamination construction materials OSB panel SIP panel forest resources environmental sustainability life-cycle analysis análisis de ciclo de vida contaminación ambiental materiales de construcción panel OSB panel SIP recursos forestales sostenibilidad ambiental análise de ciclo de vida poluição ambiental materiais de construção painel OSB painel SIP recursos florestais sustentabilidade ambiental This paper proposes a SIP (Structural Insulated Panel) type composite panel prototype, a structural thermal panel, as a building envelope wall made of renewable natural materials, specifically bamboo and recycled cardboard. The panel consists of two external OSB (Oriented Strand Board) boards, oriented chipboard, and an intermediate cardboard insulation. In the study, two experimental SIP models are developed, using different manufacturing processes, which are analyzed and compared with four commercial references worldwide. All the panels are simulated thermally and acoustically in the climatic and meteorological conditions of the city of Pereira (Risaralda), in order to evaluate and compare the results, demonstrating thus the viability and competitiveness of the proposed prototype. In addition, this study aims to serve as a reference point for future research in the search for better sustainable construction materials. Se propone un prototipo de panel compuesto, tipo SIP (Structural Insulated Panel), panel térmico estructural, como muro envolvente de vivienda, elaborado con materiales de origen natural renovables, específicamente guadua y cartón reciclados. El panel se compone de dos tableros externos OSB (Oriented Strand Board), tablero de virutas orientadas, y un aislante intermedio de cartón. En el estudio se elaboran dos modelos SIP experimentales con procesos de fabricación diferentes, los cuales son analizados y comparados con cuatro referentes comercializados a nivel mundial. Todos los paneles son simulados térmica y acústicamente en condiciones climáticas y meteorológicas de la ciudad de Pereira (Risaralda), con el fin de evaluar y comparar los resultados, lo que demuestra la viabilidad y competitividad del panel propuesto. Este estudio espera servir, además, como referencia de futuras investigaciones en la búsqueda de mejores materiales sustentables para la construcción. Propõe-se um protótipo de painel composto, tipo SIP (Structural Insulated Panel), painel térmico estrutural, como muro envolvente de moradia elaborado com materiais de origem natural renováveis, em específico bambu e papelão reciclado. O painel está composto de duas placas externas OSB (Oriented Strand Board), placas de aparas orientadas e um isolante intermediário de papelão. Neste estudo, foram elaborados dois modelos SIP experimentais com processos de fabricação diferentes, os quais são analisados e comparados com quatro referentes comercializados no mundo inteiro. Todos os painéis são simulados térmica e acusticamente em condições climáticas e meteorológicas da cidade de Pereira (Colômbia), a fim de avaliar e comparar os resultados, o que demonstra a viabilidade e competitividade do proposto. Este estudo espera servir, além disso, como referência para futuras pesquisas na busca de melhores materiais sustentáveis para a construção. Universidad Católica de Colombia 2018-08-15 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion evaluación por pares internos text/html application/pdf text/html application/pdf application/xml https://revistadearquitectura.ucatolica.edu.co/article/view/2116 10.14718/RevArq.2018.20.2.2116 Revista de Arquitectura; Vol. 20 No. 2 (2018): July - December; 90-109 Revista de Arquitectura (Bogotá); Vol. 20 Núm. 2 (2018): Julio - diciembre; 90-109 Revista de Arquitectura; Vol. 20 No. 2 (2018): Julio - diciembre; 90-109 Revista de Arquitectura; v. 20 n. 2 (2018): Julho - dezembro; 90-109 2357-626X 1657-0308 spa eng https://revistadearquitectura.ucatolica.edu.co/article/view/2116/1991 https://revistadearquitectura.ucatolica.edu.co/article/view/2116/2341 https://revistadearquitectura.ucatolica.edu.co/article/view/2116/2245 https://revistadearquitectura.ucatolica.edu.co/article/view/2116/2342 https://revistadearquitectura.ucatolica.edu.co/article/view/2116/2458 Derechos de autor 2018 Renato Cassandro-Cajiao info:eu-repo/semantics/openAccess https://creativecommons.org/licenses/by-nc/4.0

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