Bibliographic citations
Garate, C., Rozas, A. (2023). Influencia del cemento yura IP y el impermeabilizante líquido sika-1 en las propiedades físicas (hidráulicas) y mecánicas del adobe estabilizado y el adobe comprimido, Cusco, 2022 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/6159
Garate, C., Rozas, A. Influencia del cemento yura IP y el impermeabilizante líquido sika-1 en las propiedades físicas (hidráulicas) y mecánicas del adobe estabilizado y el adobe comprimido, Cusco, 2022 []. PE: Universidad Andina del Cusco; 2023. https://hdl.handle.net/20.500.12557/6159
@misc{renati/955492,
title = "Influencia del cemento yura IP y el impermeabilizante líquido sika-1 en las propiedades físicas (hidráulicas) y mecánicas del adobe estabilizado y el adobe comprimido, Cusco, 2022",
author = "Rozas Paredes, Alex Eduardo",
publisher = "Universidad Andina del Cusco",
year = "2023"
}
The main objective of this thesis is to determine the influence of Yura IP Cement in percentages of 0%, 2% and 4% and the Sika-1 Liquid Waterproofing in percentages of 0%, 5% and 10%, with respect to the dry weight of the adobe on the physical (hydraulic) and mechanical properties of traditional adobe and compressed adobe, finally comparing the results and obtaining the most appropriate combination. The methodology used in this research has a quantitative approach, descriptive level with explanatory scope and experimental design, where the sampling was carried out for convenience, making the population and the sample equal in quantity, with a total of 432 units, of these 48 adobes were without additives, 48 adobes with 5% Sika-1 and 0% Yura IP cement, 48 adobes with 10% Sika-1 and 0% Yura IP cement, 48 adobes with 0% Sika-1 and 2 % Yura IP cement, 48 bricks with 5% Sika-1 and 2% Yura IP cement, 48 bricks with 10% Sika-1 and 2% Yura IP cement, 48 bricks with 0% Sika-1 and 4% Yura IP cement, 48 adobes with 5% Sika-1 and 4% Yura IP cement and finally 48 adobes with 10% Sika-1 and 4% Yura IP cement, for this investigation the standards were used. Peruvian techniques NTP 339.141, NTP 339.119, NTP 339.128, NTP 339.127, and the Spanish standard UNE 41410:2008, for the Swinburne SAET erosion resistance test. We use formats prepared by our own source to collect data from the tests of resistance to compression, absorption, suction, Swinburne accelerated erosion (SAET), dimensional variation and warpage, it is worth mentioning that the tests were carried out after 30 days of drying of the adobe in optimal conditions to later make the corresponding calculations. At the conclusion of the laboratory tests, the following was recorded: In the absorption test, no results were obtained since the specimens fell apart after 24 hours of saturation, in the suction test it was obtained that the adobes compressed with 10% sika- 1 and 4% Yura IP cement suck 15.25% less than uncompressed adobe, in the compression resistance test it is found that adobes with 10% sika-1 and 4% Yura IP cement resist compression 10.61 % more than uncompressed adobe, from the SAET accelerated erosion test, it was obtained that adobe with 10% sika-1 and 4% Yura IP cement has a 29.17% less void than uncompressed adobe, from the warpage test and Dimensional variation The results obtained indicate that the additives used in this thesis do not influence these properties, but rather the manipulation of the adobes in their preparation.
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