Bibliographic citations
Elias, L., Tito, J. (2022). Análisis de las propiedades físico-mecánicas de un concreto tradicional f´c= 210 kg/cm2 al sustituir cemento por cenizas de cáscara de huevo y adicionar a la mezcla fibra de acero reciclado. Lima Norte 2022 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/33491
Elias, L., Tito, J. Análisis de las propiedades físico-mecánicas de un concreto tradicional f´c= 210 kg/cm2 al sustituir cemento por cenizas de cáscara de huevo y adicionar a la mezcla fibra de acero reciclado. Lima Norte 2022 [Tesis]. PE: Universidad Privada del Norte; 2022. https://hdl.handle.net/11537/33491
@misc{renati/525891,
title = "Análisis de las propiedades físico-mecánicas de un concreto tradicional f´c= 210 kg/cm2 al sustituir cemento por cenizas de cáscara de huevo y adicionar a la mezcla fibra de acero reciclado. Lima Norte 2022",
author = "Tito Sigüeñas, Joselyn",
publisher = "Universidad Privada del Norte",
year = "2022"
}
The present research entitled “Analysis of the physical-mechanical properties of a traditional concrete f'c=210 kg/cm2 by replacing cement with eggshell ash and adding recycled steel fiber to the mix-North Lima 2022“ will evaluate an alternative concrete considering the use of steel fibers that provide greater rigidity and resistance to flexural stress in structures and eggshell because it is economical, contains components for the formation of cement and is one of the largest waste products at the national level. The scientific research methodology was developed in two parts; one bibliographic and the other experimental, the latter was of an applied and quasi-experimental design. After the tests, it is noted that the compressive and diametral tensile strength with design one shows excellent results. The flexural strength between design one and the traditional design does not show significant differences, although both designs are higher than the others and there is a positive impact on workability with respect to the traditional design. In effect, we conclude that the proposed concrete is viable and innovative in the construction sector because it meets the necessary requirements and contributes to the reduction of environmental pollution by using recyclable raw materials.
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