Citas bibligráficas
Casazola, C., Orcon, M. (2023). Influencia de la adición de polvo de vidrio reciclado en la estabilización de un suelo arcilloso con fines de cimentación superficial en el APV Sucso Auccaylle del distrito de San Sebastian, Cusco - 2022 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/5942
Casazola, C., Orcon, M. Influencia de la adición de polvo de vidrio reciclado en la estabilización de un suelo arcilloso con fines de cimentación superficial en el APV Sucso Auccaylle del distrito de San Sebastian, Cusco - 2022 []. PE: Universidad Andina del Cusco; 2023. https://hdl.handle.net/20.500.12557/5942
@misc{renati/957193,
title = "Influencia de la adición de polvo de vidrio reciclado en la estabilización de un suelo arcilloso con fines de cimentación superficial en el APV Sucso Auccaylle del distrito de San Sebastian, Cusco - 2022",
author = "Orcon Galdos, Mauricio Gerardo",
publisher = "Universidad Andina del Cusco",
year = "2023"
}
The main objective of this research is to determine to what extent the addition of recycled glass powder influences the stabilization of clayey soil for shallow foundation purposes. In this study, five samples of clayey soil were prepared and evaluated with the addition of different percentages of recyclable glass powder (0%, 2%, 5%, 8%, and 11%), following the CE. 020 standard, which establishes minimum technical considerations for the required improvement of soil strength through chemical and mechanical methods. The standard mentions lime stabilization in the range of 2% to 8% depending on the type of clay. Inherent to this, the aim is to stabilize the clayey soil identified in the APV Sucso Auccaylle, San Sebastián district, Cusco, using non-biodegradable waste materials, such as beer glass bottles, as a stabilizing agent, giving them a new purpose for recycling and reuse in the construction industry, taking into account lime as a component of the glass. So, the following physico-mechanical properties of the clayey soil were addressed, following the procedural guidance of the Peruvian Technical Standard (NTP) and ASTM standards. These properties include the Atterberg limits (plastic limit, liquid limit, and plasticity index), soil compaction with modified energy (optimal moisture content and maximum dry density), and strength parameters (friction angle and cohesion). Finally, their influence on soil stabilization costs with this additive was determined. To achieve this purpose, a quantitative approach was taken with a descriptive scope, a hypothetical-deductive method, and a quasi-experimental design. Therefore, after evaluating the 5 samples of clayey soil with the addition of different percentages of recycled glass powder (0%, 2%, 5%, 8%, and 11%), it was concluded that adding 5% of glass powder to the clayey soil, after calculating the laboratory test results regarding its physico-mechanical properties, showed favorable results compared to natural soil. However, when calculating the bearing capacity of the natural soil and with the different additions of glass powder, the 11% glass powder addition presented an increase in bearing capacity of 46% compared to the natural soil. This is due to the values of its friction angle and cohesion, which are 24% and 12% higher, respectively.
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