Bibliographic citations
Santiago, J., (2022). Influencia del 11%, 12%, 13% y 14% de partículas de neumático fuera de uso en la resistencia axial, a flexión y tracción indirecta de un concreto f’c=210kg/cm2, empleando la norma técnica, Lima - 2022 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/30663
Santiago, J., Influencia del 11%, 12%, 13% y 14% de partículas de neumático fuera de uso en la resistencia axial, a flexión y tracción indirecta de un concreto f’c=210kg/cm2, empleando la norma técnica, Lima - 2022 [Tesis]. PE: Universidad Privada del Norte; 2022. https://hdl.handle.net/11537/30663
@misc{renati/510681,
title = "Influencia del 11%, 12%, 13% y 14% de partículas de neumático fuera de uso en la resistencia axial, a flexión y tracción indirecta de un concreto f’c=210kg/cm2, empleando la norma técnica, Lima - 2022",
author = "Santiago Ramirez, Jamin",
publisher = "Universidad Privada del Norte",
year = "2022"
}
At present, one of the environmental problems is due to the abundant improper recycling of End of Use Tires. Consequently, in order to mitigate negative environmental impacts, research has arisen that seeks to reuse End of Use Tires in the manufacture of concrete. The research was developed to evaluate the resistance to axial compression, bending and indirect traction of conventional concrete modified by partial replacement of the volume of conventional concrete by particles of Tire Out of Use. Conventional concrete modified by partial replacement of 11%, 12%, 13% and 14% of End-of-Life Tire particles conserving an average resistance f'c=210kg/cm2 were subjected to tests of resistance to axial compression, bending and indirect traction at the age of 7, 14 and 28 days. In the results obtained, it was observed that the resistance to axial compression, bending and indirect traction decrease according to the increase in percentages of particles of Tire Out of Use. The decrease in resistance to axial compression varies between -17.25% and -33.96 %, likewise the decrease in flexural strength varies between -21.11% and -40.77%, and finally the decrease in indirect tensile strength varies between -35.22% and -60.94%. The use of 11%, 12%, 13% and 14% of End-of-Life Tire particles in the manufacture of concrete generates savings between +S/14.13 and +S/17.56.
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