Evaluation of the Mechanical Strength of a Concrete Modified with PET Fibers from Post-Consumer Bottles

The creation of sustainable hydraulic concrete from the use of waste materials, such as PET bottles, whose performance is better than the conventional concrete, has been a great challenge worldwide within the construction industry. This article shows a study on the application of PET fibers resultin...

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Veröffentlicht in:	Key engineering materials 2020-09, Vol.862, p.66-71
Hauptverfasser:	Guzmán, Elia Mercedes Alonso, Cruz-Reyes, Hypatia Mariana, Ruiz, Rosalia Ruiz, Molina, Wilfrido Martínez, Blancas-Herrera, Victor Hugo, Argüello-Hernández, Sandra del Carmen, Pacheco-Segovia, Jorge Alberto, Garcia, Hugo Luis Chavez, Díaz-González, Noel
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Sprache:	eng
Schlagworte:	Bottles Compressive strength Construction industry Electrical resistivity Fibers Flexural strength Mechanical properties Polyethylene terephthalate Tensile strength
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creator	Guzmán, Elia Mercedes Alonso Cruz-Reyes, Hypatia Mariana Ruiz, Rosalia Ruiz Molina, Wilfrido Martínez Blancas-Herrera, Victor Hugo Argüello-Hernández, Sandra del Carmen Pacheco-Segovia, Jorge Alberto Garcia, Hugo Luis Chavez Díaz-González, Noel
description	The creation of sustainable hydraulic concrete from the use of waste materials, such as PET bottles, whose performance is better than the conventional concrete, has been a great challenge worldwide within the construction industry. This article shows a study on the application of PET fibers resulting from the recycling of post-consumer bottles, which will help increase their physical and mechanical behavior. Two concrete mixtures were made: a control mixture (M-C), with the proportions of a conventional concrete and a second mixture, adding 0.8% of PET fibers with respect to the cement mass (PR-0.8). Tests of electrical resistivity, ultrasonic pulse velocity, compressive strength, tensile strength and flexural strength were performed at the ages of 7 and 28 days. The results showed a slight improvement in the mechanical behavior of the PR-0.8 mixture, in contrast to the M-C mixture, given that a non-sudden failure occurs; while that the tests of electrical resistivity and pulse velocity indicate that the concrete produced is of good quality and durable.
doi_str_mv	10.4028/www.scientific.net/KEM.862.66
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subjects	Bottles Compressive strength Construction industry Electrical resistivity Fibers Flexural strength Mechanical properties Polyethylene terephthalate Tensile strength
title	Evaluation of the Mechanical Strength of a Concrete Modified with PET Fibers from Post-Consumer Bottles
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