Citas bibligráficas
Olivera, E., Pucuhuanca, D. (2023). Determinación del efecto del aserrín y polímero en las propiedades fisico-mecanicas del ladrillo fabricado con arcilla-suelo, de la cantera de Accamana, San Jeronimo, Cusco2023 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/6011
Olivera, E., Pucuhuanca, D. Determinación del efecto del aserrín y polímero en las propiedades fisico-mecanicas del ladrillo fabricado con arcilla-suelo, de la cantera de Accamana, San Jeronimo, Cusco2023 []. PE: Universidad Andina del Cusco; 2023. https://hdl.handle.net/20.500.12557/6011
@misc{renati/957176,
title = "Determinación del efecto del aserrín y polímero en las propiedades fisico-mecanicas del ladrillo fabricado con arcilla-suelo, de la cantera de Accamana, San Jeronimo, Cusco2023",
author = "Pucuhuanca Pumallica, Dennis Josue",
publisher = "Universidad Andina del Cusco",
year = "2023"
}
The present study focuses on investigating the Effect of Sawdust and Polymer on the Physical-Mechanical Properties of the Brick Made with Clay-Soil from the Accamana Quarry, San Jerónimo, Cusco-2023. The general problem posed seeks to understand how the incorporation of sawdust and polymer impacts the specific physicalmechanical properties of bricks manufactured with clay-soil extracted from the aforementioned quarry in the year 2023. Specific problems break down this main question in various investigations: Evaluate the effect of different percentages of sawdust (3%, 5%, 7%) and the addition of consolid C444 polymer (0.032%) on the dimensional variation of bricks. Investigate how these same percentages of sawdust and polymer affect the warping of bricks. Determine the impact of the additions on the water absorption of the bricks. Analyze how the percentages of sawdust and polymer influence the compressive strength of bricks. Examine the effect of these additions on the modulus of rupture (flexural strength) of the bricks. The results obtained from this study are summarized through a correlation matrix that highlights the relationships between the different variables measured. Below is some specific results data: Compressive Strength (R_COMP) (kg/cm2): Values range between 27,840 and 31,470 kg/cm2, with an average of 29,674 kg/cm2 and a standard deviation of 1,095 kg/cm2. Flexion Resistance (R_FLEXION) (kg/cm2): The results vary between 6.918 and 8.214 kg/cm2, with a mean of 7.504 kg/cm2 and a standard deviation of 0.336 kg/cm2. Compressive Strength of Raw Materials (R_Comp_Primas) (kg/cm2): The values are in the range of 27,650 to 31,010 kg/cm2, with an average of 29,260 kg/cm2 and a standard deviation of 1,059 kg/cm2. Compressive Strength of Raw Materials (R_Comp_Primas) (kg/cm2): The values are in the range of 27,650 to 31,010 kg/cm2, with an average of 29,260 kg/cm2 and a standard deviation of 1,059 kg/cm2.
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