Bibliographic citations
Collana, R., Romuacca, M. (2024). Análisis de la influencia de diatomita en la curva esfuerzo deformación en el ladrillo macizo de San Jerónimo, por la ladrillera eco BRICK S.J. Cusco 2023 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/6803
Collana, R., Romuacca, M. Análisis de la influencia de diatomita en la curva esfuerzo deformación en el ladrillo macizo de San Jerónimo, por la ladrillera eco BRICK S.J. Cusco 2023 []. PE: Universidad Andina del Cusco; 2024. https://hdl.handle.net/20.500.12557/6803
@misc{renati/957161,
title = "Análisis de la influencia de diatomita en la curva esfuerzo deformación en el ladrillo macizo de San Jerónimo, por la ladrillera eco BRICK S.J. Cusco 2023",
author = "Romuacca Huaman, Mijail Kevin",
publisher = "Universidad Andina del Cusco",
year = "2024"
}
The present research aimed to analyze the influence of diatomite on the stress-strain curve in solid bricks made from San Jerónimo clay by the brick factory Eco Brick S.J. Cusco 2023. An applied methodology with a quantitative approach and quasi-experimental design was employed. The results indicated that the highest compressive strength was 265.153 Kg/cm² in the control sample, followed by 230.247 Kg/cm² in the sample with 1% diatomite, decreasing progressively to 167.436 Kg/cm² in the sample with 6% diatomite. The highest modulus of elasticity was 14,949.56 in the sample with 4% diatomite, followed by 7,560.52 in the sample with 5%, and the lowest value was 2,535.97 in the sample with 6%. Regarding the Poisson's ratio, the highest value was 0.0093 in the sample with 3% diatomite, and the lowest was 0.0032 in the sample with 4%. Finally, it is concluded that the incorporation of diatomite in clay bricks significantly affects their mechanical properties. Compressive strength decreases as the dosage increases, with the control sample achieving 265.153 Kgf/cm² and the sample with 6% diatomite reaching only 167.436 Kgf/cm². In terms of the modulus of elasticity, the addition of 4% diatomite resulted in the highest value at 14,949.56 Kgf/mm², while 6% diatomite showed a reduction to 2,535.97 Kgf/mm². These results underscore the need to optimize the diatomite dosage to balance strength, stiffness, and ductility in clay bricks.
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