Citas bibligráficas
Dávila, H., (2022). Propuesta de un concreto para pavimentos rígidos con adición de polvo de vidrio en reemplazo parcial del cemento y agregado fino, afín de reducir la contaminación producida por la construcción de la capa de rodadura en la carretera Mayocc-Huanta, tramo Allccomachay-Huanta departamento de Ayacucho [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/659066
Dávila, H., Propuesta de un concreto para pavimentos rígidos con adición de polvo de vidrio en reemplazo parcial del cemento y agregado fino, afín de reducir la contaminación producida por la construcción de la capa de rodadura en la carretera Mayocc-Huanta, tramo Allccomachay-Huanta departamento de Ayacucho [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2022. http://hdl.handle.net/10757/659066
@misc{renati/398645,
title = "Propuesta de un concreto para pavimentos rígidos con adición de polvo de vidrio en reemplazo parcial del cemento y agregado fino, afín de reducir la contaminación producida por la construcción de la capa de rodadura en la carretera Mayocc-Huanta, tramo Allccomachay-Huanta departamento de Ayacucho",
author = "Dávila Estrada, Herbert Arnold",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2022"
}
The amount of waste has increased over time, currently being a serious threat to the environment; Such is the case of glass, and the construction sector also contributes a lot to environmental pollution, a sector that will continue to grow constantly. One of the construction sectors that will grow much more with the passage of time are the roads. In our country, most of the paved roads are made of hot asphalt, a component that pollutes a lot and needs a lot of maintenance, that is why this research proposed the common use of rigid pavements, because they are more eco-friendly, more resistant and much cheaper in the long term, but the disadvantage that these pavements have is their massive use of component cement that pollutes a lot in its preparation, that is why to make it more sustainable with the environment, part of the cement and fine aggregate have been replaced to obtain an ecological concrete that works adequately for rigid pavements, the cement replacements were 20, 15 and 10%, of the fine aggregate were 15, 10 and 5%, percentages obtained from the investigation of other results, these being the most favorable mechanically, the The results obtained show that a concrete with 15% replacement works correctly, also reduces production costs and reduces the e by 11%. CO2 mission compared to conventional concrete.
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