Bibliographic citations
Poma, J., (2020). Análisis y diseño para la elaboración de concreto f´c=210 kg/cm2 adicionando vidrio reciclado molido como agregado fino según la Norma ACI 211. Lima 2019 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/23469
Poma, J., Análisis y diseño para la elaboración de concreto f´c=210 kg/cm2 adicionando vidrio reciclado molido como agregado fino según la Norma ACI 211. Lima 2019 [Tesis]. PE: Universidad Privada del Norte; 2020. https://hdl.handle.net/11537/23469
@misc{renati/520583,
title = "Análisis y diseño para la elaboración de concreto f´c=210 kg/cm2 adicionando vidrio reciclado molido como agregado fino según la Norma ACI 211. Lima 2019",
author = "Poma Ariza, Julio Alberto",
publisher = "Universidad Privada del Norte",
year = "2020"
}
The present work “Analysis and design for the elaboration of concrete f'c=210 kg/cm2 adding recycled glass ground as fine aggregate according to ACI 211. Lima 2019“. The objective was to determine the appropriate percentage of ground glass in the mix design, using tests for traditional concrete, with an alternative recyclable aggregate, which can contribute to the care of the environment without losing the physical properties of the concrete. In this way, we want to give a contribution of design, in addition we want to demonstrate that the partial addition of ground glass in part of the fine aggregate, will help the mixture, to increase its resistance to compression. In Peru, recycled glass is normally used to make more glass, rescuing its low cost, if it went through a milling process, it could be used in places where fine aggregate is scarce, as in the case of Selva and related. Sodium calcium glass can be reused giving an incredible benefit mixing it with cement, sand, stone and water, obtaining a concrete with a greater degree of resistance to compression, more durable and less absorption, in its hardened state, however, originating an optimal coating for steel and in the same way an extremely more rigid superstructure. All the tests were carried out in the Laboratory N° 01 of materials testing “Ing. Manuel Gonzales de la Cotera“ of the National University of Engineering - Faculty of Civil Engineering UNI-LEM (Laboratory Certified ISO 9001).
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