Bibliographic citations
Valenzuela, N., Román, C. (2019). Análisis comparativo de la estabilidad, flujo y porcentaje de vacíos de una mezcla asfáltica en caliente, respecto a una mezcla asfáltica en caliente modificada con vidrio reciclado Cusco 2018 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/3997
Valenzuela, N., Román, C. Análisis comparativo de la estabilidad, flujo y porcentaje de vacíos de una mezcla asfáltica en caliente, respecto a una mezcla asfáltica en caliente modificada con vidrio reciclado Cusco 2018 []. PE: Universidad Andina del Cusco; 2019. https://hdl.handle.net/20.500.12557/3997
@misc{sunedu/3044422,
title = "Análisis comparativo de la estabilidad, flujo y porcentaje de vacíos de una mezcla asfáltica en caliente, respecto a una mezcla asfáltica en caliente modificada con vidrio reciclado Cusco 2018",
author = "Román Ojeda, César Aarón",
publisher = "Universidad Andina del Cusco",
year = "2019"
}
The following thesis project has as purpose to achieve a comparative analysis of the stability, flow and percentage of air vacuums (physical and mechanical properties) from a traditional hotmix asphalt - standard, manufactured with asphalt PEN 85/100. According to a hot-mix asphalt modified with recycled glass, through the substitution of a fine aggregate, based on the weight on percentages, and thus, obtaining the percentage of substitution that gives better results to the physical and mechanical properties. For the manufacturing of such asphalt mixtures, the same mix design was used; identical aggregates, coming from the quarry of “Morro Blanco” – Pisac and the same type of asphalt coming from the Cusco Regional Government. This comparative analysis of the physical and mechanical properties was made using “The Asphalt Institute Method” to obtain the optimum content of asphalt, which was 5.6%, applying the “Marshall Method” by means of the specimen’s evaluation, afterwards the optimum glass content was obtained, using specimens with 5%, 8%, 10%, 12% and 15% of substituted glass. Obtaining an optimal percentage of substitution in aggregate weight by recycled glass of 15%. When comparing the optimal asphalt mixtures; the following conclusion was reached: The modified hot-mix asphalt with the optimum substitution percentage provides better physical and mechanical properties than traditional hot-mix asphalt.
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