Citas bibligráficas
Nuñuvero, K., Paredes, V. (2024). “Influencia del % fibras de cabuya y tiempo sobre el comportamiento mecánico de morteros de concreto reciclado con relaves mineros activados” [Universidad Nacional de Trujillo]. https://hdl.handle.net/20.500.14414/22382
Nuñuvero, K., Paredes, V. “Influencia del % fibras de cabuya y tiempo sobre el comportamiento mecánico de morteros de concreto reciclado con relaves mineros activados” []. PE: Universidad Nacional de Trujillo; 2024. https://hdl.handle.net/20.500.14414/22382
@misc{renati/879902,
title = "“Influencia del % fibras de cabuya y tiempo sobre el comportamiento mecánico de morteros de concreto reciclado con relaves mineros activados”",
author = "Paredes Paredes, Vanessa Yajaira",
publisher = "Universidad Nacional de Trujillo",
year = "2024"
}
Currently, Peru has 450 abandoned mines and more than 200 mines are operational, generating approximately 100 thousand tons of mining tailings daily. The tailings from abandoned and operating mines are a problem. If they are not stored correctly, the dam can collapse due to the oversaturation of tailings, which causes soil deterioration and river pollution. Therefore, in the present investigation, 50 x 50 x 50mm cubes and 40 x 40 x 160mm beams of recycled concrete were formed with polymetallic tailings from the Sayaatoc S.A mine located in the Sayapullo district. For the mix design, a proportion of hybrid binder (recycled concrete powder + mining tailings) and fine aggregate of 1/2 (w/w) was used, pulverized recycled concrete and mining tailings were used in a proportion of 67/33 (w/w), passing through mesh No. 400, and coarse sand as fine aggregate. With 9M NaOH activator, the w/c ratio (activator/binder) was 0.45. Discontinuous 1cm Furcraea Cabuya fibers were randomly added at 0, 0.6, 0.8, 1, 2 and 3% by weight of binder. Finally, they were characterized physically, chemically and mechanically by SEM-EDS, FTIR methods and compression tests (ASTM C109) and flexural tests (ASTM C 348) at ages of 7, 14 and 28 days. A maximum compressive strength of 24.20 MPa was obtained with 1% fiber at 28 days of testing and a maximum flexural strength of 4.84 MPa with 2% at 28 days of testing. Concluding that a higher % of cabuya fiber results in higher mechanical strengths and 1% fiber addition is optimal for both tests.
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