Analysis of axial deformation in columns of a rural housing prototype built with bamboo in Bagua Chica, Peru

The UN Sustainable Development Goal 11 promotes the construction of resilient infrastructures. In this sense, the Amazon region is a producer of bamboo, which presents an opportunity to develop the use of this plant and achieve this goal, which is why this research has explored the mechanical proper...

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Detalhes bibliográficos
Autores: Cuadros, Emerson, Ordoñez, Guido, Santillan, Yesenia, Danducho, Jairo
Tipo de documento: artigo
Estado:Versão publicada
Data de publicação:2023
País:Perú
Recursos:Universidad Nacional Intercultural Fabiola Salazar Leguía de Bagua
Repositório:Revistas - Universidad Nacional Intercultural Fabiola Salazar Leguía de Bagua
Idioma:espanhol
OAI Identifier:oai:revista.unibagua.edu.pe:article/144
Acesso em linha:https://revista.unibagua.edu.pe/index.php/dekamuagropec/article/view/144
Access Level:Acceso aberto
Palavra-chave:Bambú, deformación Axial, Prototipo, vivienda rural, construcción bajo costo, pruebas experimentales.
Bamboo
Axial deformation
Prototype
rural housing
low-cost construction
experimental tests
Descrição
Resumo:The UN Sustainable Development Goal 11 promotes the construction of resilient infrastructures. In this sense, the Amazon region is a producer of bamboo, which presents an opportunity to develop the use of this plant and achieve this goal, which is why this research has explored the mechanical properties of bamboo, for this purpose a prototype of a full-scale rural house has been designed and built to evaluate the axial behavior of the columns of this building against an additional permanent load of 0.40 kN/m. It has also been monitored with a mixed system: for temperature and humidity it has been used low cost calibrated sensors mounted on an open source electronic prototyping system that, through an embedded Wifi connection allowed sending the measurements to a database in the cloud; on the other hand, for displacement control it has been used calibrated mechanical comparators, their measurements were performed through a wireless video system. The results indicate that a maximum deformation of Ɛ= 8x10-5 has been reached and that the columns are still at 1.6% of the elastic limit which indicates a good performance and a high safety factor.