Citas bibligráficas
Yupanqui, J., Chacon, A. (2023). Diseño de bloques de adobe con adición de residuos de papel (PPR) para mejorar el desempeño térmico de las viviendas de adobe frente al friaje en el distrito de Cullhuas, Huancayo – Junín [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/670157
Yupanqui, J., Chacon, A. Diseño de bloques de adobe con adición de residuos de papel (PPR) para mejorar el desempeño térmico de las viviendas de adobe frente al friaje en el distrito de Cullhuas, Huancayo – Junín [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/670157
@misc{renati/409496,
title = "Diseño de bloques de adobe con adición de residuos de papel (PPR) para mejorar el desempeño térmico de las viviendas de adobe frente al friaje en el distrito de Cullhuas, Huancayo – Junín",
author = "Chacon San Martin, Alexandra Nikita",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
Winter in Peru is very harsh and wreaks havoc on the economy and the population every year. The high Andean regions of the country are the most affected, as is the case of Cullhuas, district of Huancayo, where the temperature drops to 2°C and severely affects the population. One of the causes of this problem is the inefficiency of their homes due to incorrect construction processes and materials not used correctly. An alternative solution is the addition of recycled paper (PPR) during the adobe manufacturing process, a widely used material, but which can improve its performance. This research consists of the production of adobe blocks with percentages of 7.5% and 12.5%, values reported from previous studies, and their comparison with traditional adobes and according to Peruvian regulations. To study the influence of said addition, these blocks are subjected to thermal conductivity tests and compression resistance tests. The main analysis variable is thermal conductivity, which measures the heat transfer capacity of a material, as it indicates that it can store heat better. The results of the study indicate that the optimal addition of PPR is 12.5% because it significantly improves the thermal performance of adobe, through the reduction of its thermal conductivity by 42.9%. Also, it contributes to the compression resistance by 10% and also allows obtaining adobes that are up to 25.5% lighter. In addition, it represents an excellent alternative to migrate to eco-friendly technologies.
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