DESIGN OF LIGHTWEIGHT CONCRETE WITH RECYCLED RUBBER AND ITS INFLUENCE ON THE PHYSICAL-MECHANICAL PROPERTIES IN MULTIFAMILY HOUSING

Autores/as

  • Joaquín Samuel Támara Rodríguez Universidad Nacional Santiago Antúnez De Mayolo - (Pe), Perú
  • Liliana Janet Chavarría Reyes Universidad Ricardo Palma - (Pe)
  • Reynaldo Melquiades Reyes Roque Universidad Nacional Santiago Antúnez De Mayolo - (Pe), Perú
  • John Frayluis Barreto Palma Universidad Nacional Santiago Antúnez De Mayolo - (Pe), Perú
  • Gustavo Gregorio De la Cruz Dueñas Universidad Nacional Santiago Antúnez De Mayolo - (Pe), Perú
  • Alexander René Deza Sanz Universidad Ricardo Palma - (Pe)
  • Aldhair Anthony Durand Carrasco Universidad Ricardo Palma - (Pe)

DOI:

https://doi.org/10.18687/LACCEI2025.1.1.993

Palabras clave:

- Lightweight concrete, recycled rubber, expanded clay, workability, mechanical properties

Resumen

The present study focused on the development of a lightweight concrete modified with the incorporation of recycled rubber (RC), with the purpose of improving its physical and mechanical properties for its application in multifamily buildings. The problem addressed arises from the need for a material that combines low density, good workability and resistance suitable for use in multi-family housing, while promoting sustainability through the reuse of rubber waste. In this context, the general objective was to design a lightweight concrete that improves these properties, guaranteeing a balance between structural efficiency and environmental benefits.. lightweight concrete and the impact that the incorporation of recycled materials has on its physical and mechanical properties, in order to evaluate its viability in sustainable structural applications. The study used the deductive scientific method, applied orientation, quantitative approach, descriptive, explanatory, correlational and descriptive level. Experimental, longitudinal, prospective design and cohort study (cause – effect), where the proportions of CR in the concrete were varied. The results obtained indicate that the incorporation of CR improves the workability of the mixture, but reduces the unit weight by up to 35.99% and increases the settlement by 75.00% when 20% of CR is added. In addition, a decrease in the compressive strength of 12.93% and in the tensile strength of 26.67% is observed. The optimal dosage was determined at 5% CR, as it allows a balance to be achieved between better workability and a minimal reduction in strength, with a decrease of 5.6% compared to the control sample.

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Publicado

2025-04-09

Número

Vol. 1 Núm. 12 (2025): LACCEI 2025

Sección

Articles

Licencia

Derechos de autor 2025 LACCEI

Creative Commons License

Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial 4.0.

Cómo citar

Támara Rodríguez, J. S., Chavarría Reyes, L. J., Reyes Roque, R. M., Barreto Palma, J. F., De la Cruz Dueñas, G. G., Deza Sanz, A. R., & Durand Carrasco, A. A. (2025). DESIGN OF LIGHTWEIGHT CONCRETE WITH RECYCLED RUBBER AND ITS INFLUENCE ON THE PHYSICAL-MECHANICAL PROPERTIES IN MULTIFAMILY HOUSING. LACCEI, 1(12). https://doi.org/10.18687/LACCEI2025.1.1.993

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