Bibliographic citations
Huaman, G., Valenzuela, M. (2017). Evaluación comparativa de la resistencia a compresión entre un concreto F`C=210 kg/cm2 adicionado con material Pead y un concreto F`C=210 kg/cm2 adicionado con material PET, elaborados con material procedente de las canteras de Cunyac y Vicho. [Tesis, Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/1358
Huaman, G., Valenzuela, M. Evaluación comparativa de la resistencia a compresión entre un concreto F`C=210 kg/cm2 adicionado con material Pead y un concreto F`C=210 kg/cm2 adicionado con material PET, elaborados con material procedente de las canteras de Cunyac y Vicho. [Tesis]. : Universidad Andina del Cusco; 2017. https://hdl.handle.net/20.500.12557/1358
@misc{renati/954342,
title = "Evaluación comparativa de la resistencia a compresión entre un concreto F`C=210 kg/cm2 adicionado con material Pead y un concreto F`C=210 kg/cm2 adicionado con material PET, elaborados con material procedente de las canteras de Cunyac y Vicho.",
author = "Valenzuela Ccahuana, Maruxia Faryde",
publisher = "Universidad Andina del Cusco",
year = "2017"
}
The present investigation has evaluated the comparison of the resistance to compression between a concrete F'c = 210 Kg/cm2 added with PET material and a concrete F'c = 210 Kg/cm2 added with HDPE material in percentages of 1%, 2% and 3% for both materials respectively, We also evaluated the consistency of the concrete added with such materials. For realize this investigation, previously we had to perform a prior study with respect to the availability of materials to add to the concrete. Before the manufacture of concrete specimens to study, it is essential to carry out all the necessary tests and trials that the establish norms, for both fine aggregate and coarse aggregate; then proceeds to perform the mix design, taking into account the data obtained in the tests of the aggregates, then we egan to develop and evaluate the consistency or slump both briquettes pattern and the briquettes added with PET and HDPE. Finally after curing all specimens, they were subjected to compression tests. With the final data obtained from all the tests realized in this thesis, came to the conclusion that a particular F'c = 210 Kg/cm2 added with 1%, 2% y 3% and PET material effectively increases the resistance to the compression with respect to a particular F'c = 210 Kg/cm2 added with 1%, 2% y 3% and HDPE material in a 11%, 18% and 19% respectively. At the same time we saw that a concrete F'c = 210 Kg/cm2 added with PET material presents better consistency or SLUMP with respect to a concrete F'c = 210 Kg/cm2 added with HDPE material.
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