Bibliographic citations
Velasquez, G., (2021). Influencia del porcelanato reciclado como reemplazo de los agregados sobre asentamiento, compresión, absorción, densidad y porosidad en el concreto, Trujillo 2021 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/29593
Velasquez, G., Influencia del porcelanato reciclado como reemplazo de los agregados sobre asentamiento, compresión, absorción, densidad y porosidad en el concreto, Trujillo 2021 [Tesis]. PE: Universidad Privada del Norte; 2021. https://hdl.handle.net/11537/29593
@misc{renati/512497,
title = "Influencia del porcelanato reciclado como reemplazo de los agregados sobre asentamiento, compresión, absorción, densidad y porosidad en el concreto, Trujillo 2021",
author = "Velasquez Paredes, Gerson Sebastian",
publisher = "Universidad Privada del Norte",
year = "2021"
}
ABSTRACT The objective of this research was to determine the influence of recycled porcelain as a replacement for aggregates in concrete in the city of Trujillo. An investigation was applied according to its design: experimental and according to its level: explanatory, for which a structural concrete was elaborated replacing the aggregates with recycled porcelain through the percentage substitution based on their weight, evaluating the properties of the concrete in fresh state such as workability through the Slump test that measures slump (NTP 339.035) and in hardened state: compressive strength at 28 and 56 days (NTP 339.034), density, absorption and porosity (NTP 339.187) . The results were obtained for a standard concrete without any replacement: a settlement of 10.27 cm, a compression resistance at 28 days of 270 kg/cm2, at 56 days 284 kg/cm2, also a density of 2221 kg/m3, porosity of 11.90 % and absorption of 5.34 %. For the concrete that replaced the coarse aggregate with crushed recycled porcelain, the slump increased to 21.70 cm, decreased: the 28 day compression strength by 209 kg / cm2, the 56 day compression strength by 216 kg/cm2, the density at 2140 kg/m3, the porosity at 9.52 % and the absorption at 4.44 %; while for the concrete that replaced the fine aggregate with ground recycled porcelain, the following increased: the compressive strength from 28 days to 312 kg/cm2, the compressive strength from 56 days to 328 kg/cm2; decreased: settlement at 3.70 cm, density 2208 kg/m3, porosity at 9.14 % and absorption at 4.13 %.
This item is licensed under a Creative Commons License