Random forest to predict the elasticity modulus of concretes made with CDW

Authors

  • Emerson Felipe Felix Universidade Estadual Paulista
  • Breno de Melo Lavinicki Universidade Federal da Integração Latino-Americana
  • Edna Possan Universidade Federal da Integração Latino-Americana

DOI:

https://doi.org/10.46421/enarc.v8i00.3719

Keywords:

Recycled aggregate concrete, Optimization, Machine learning, Random Forest

Abstract

The use of construction and demolition waste in concrete production has become a recurring alternative due to their benefits, such as cost reduction, reduction of CO2 emissions, and less environmental pollution. However, regarding the mechanical behavior of concrete with recycled aggregate, it is known that its mechanical capacity is lower than that of natural aggregate concrete, making it essential to predict the mechanical properties of the material to determine the mix in which the mechanical properties are maximized, and the environmental impacts are minimized. Thus, this work evaluates the use of random forests to model the modulus of elasticity of concrete with recycled aggregate and, from that, determine traces of low environmental impact. The results pointed out the feasibility of applying the machine learning technique in the modeling, obtaining a model with a coefficient of determination of 93.5%.

References

AJDUKIEWICZ, A.; KLISZCZEWICZ, A. Influence of recycled aggregates on mechanical properties of HS/HPC. Cement & Concrete Composites. Vol. 24, pp. 269-279, 2002.

BEHNOOD, A.; OLEK, J.; GLINICKI, M. A. Predicting modulus elasticity of recycled aggregate concrete using M50 model tree algorithm. Construction and Building Materials. Vol. 94, pp. 137-147, 2015.

BREIMAN, L.; FRIEDMAN, J.; STONE, C. J.; OLSHEN, R.A. Classification and regression trees. CRC Press, 1984.

BUI., N. K.; SATOMI, T.; TAKAHASHI, H. Mechanical properties of concrete containing 100% treated coarse recycled concrete aggregate. Construction and Building Materials. Vol 163, pp. 496-507, 2018.

BUTLER, L.; WEST, J. S.; TIGHE, S. L. Effect of recycled concrete coarse aggregate from multiple sources on the hardened properties of concrete with equivalent compressive strength. Construction and Building Materials. Vol 47, pp. 1292-1301, 2013.

CASUCCIO, M.; TORRIJOS, M. C.; GIACCIO, G.; ZERBINO, R. Failure mechanism of recycled aggregate concrete. Construction and Building Materials. Vol 22, pp. 1500-1506, 2008.

CHEN, A.; WANG, J.; GE, Z. Experimental study on the fundamental characteristics of recycled concrete. Advanced Materials Research. Vol. 295-297, pp. 958-961, 2011.

CORINALDESI, V. Structural concrete prepared with coarse recycled concrete aggregate: from investigation to design. Advances in Civil Engineering. Vol. 2011, pp. 1-6, 2011.

DILBAS, H.; ŞIMŞEK, M.; ÇAKIR, Ö. An investigation on mechanical and physical properties of recycled aggregate concrete (RAC) with and without silica fume. Construction and Building Materials. Vol 61, pp. 50-59, 2014.

DUAN, Z. H.; KOU, S. C.; POON, C. S. Using artificial neural networks for predicting the elastic modulus of recycled aggregate concrete. Construction and Building Materials. Vol 44, pp. 524-532, 2013.

DUAN, Z. H.; POON, C. S. Properties of recycled aggregate concrete made with reclycled aggregates with different amounts of old adhered mortars. Materials and Design. Vol. 58, pp. 19-29, 2014.

DOMINGO-CABO, A.; LÁZARO, C.; LÓPEZ-GAYARRE, F.; SERRANO-LÓPEZ, M. A.; SERNA P.; CASTAÑO-TABARES J. O. Creep and shrinkage on recycled aggregate concrete. Construction and Building Materials. Vol 23, pp. 2545-2553, 2009.

DOMINGO-CABO, A.; LÁZARO, C.; LÓPEZ-GAYARRE, F.; SERRANO-LÓPEZ, M. A.; LÓPEZ-COLINA, C. Long term deformations by creep and shrinkage in recycled aggregate concrete. Materials and Structures. Vol. 43, pp. 1147-1160, 2010.

DUAN, Z.; POON, C. S.; XIAO, J. Using artificial neural networks to assess the applicability of recycled aggregate classification by different specifications. Materials and Structures. Vol. 50, pp. 1-14, 2017.

ETXEBERRIA, M.; MARÍ, A. R.; VÁZQUEZ, E. Recycled aggregate concrete as structural material. Materials and Structures. Vol. 40, pp. 529-541, 2007.

ETXEBERRIA, M.; VÁZQUEZ, E.; MARÍ, A. R.; BARRA, M. Influence of amount of recycle coarse aggregates and production process on properties of recycled aggregate concrete. Cement and Concrete Research. Vol. 37, pp. 735-742, 2007.

FELIX, Emerson Felipe; POSSAN, Edna; CARRAZEDO, Rogério. A new formulation to estimate the elastic modulus of recycled concrete based on regression and ANN. Sustainability, v. 13, n. 15, p. 8561, 2021.

FELIX, E. F.; POSSAN, E.; CARRAZEDO, R. Artificial Intelligence Applied in the Concrete Durability Study. Hygrothermal Behaviour and Building Pathologies, p. 99-121, 2021.

FOLINO, P.; XARGAY, H. Recycled aggregate concrete – Mechanical behavior under uniaxial and triaxial compression. Construction and Building Materials. Vol 56, pp. 21-31, 2014.

GOLAFSHANIA, E. M.; BEHNOOD, A. Automatic regression methods for formulation of elastic modulus of recycled aggregate concrete. Applied Soft Computing. Vol. 64, pp. 377-400, 2018.

GÓMEZ-SOBERÓN, J. M. Shrinkage of concrete with replacement of aggregate with recycled aggregate concrete. In: ACI SP-209: Innovations in Design with Emphasis on Seismic, Wind, and Environmental Loading; Quality Control and Innovations in Materials/Hot-Weather Concreting, American Concrete Institute, 2002.

HAYLES, M.; SANCHEZ, L. F. M.; NOËL, M. Eco-efficient low cement recycled aggregate mixtures for structural applications. Construction and Building Materials. Vol 169, pp. 724-732, 2018.

HASTIE, T.; TIBSHIRANI, R.; FRIEDMAN, J. H. The elements of statistical learning: data mining, inference, and prediction. New York: Springer, 2009.

JUAN, M. S. Estudio sobre la utilización de árido reciclado para la fabricación de Hormigón Estructural. Tesis. Departamento de Ingeniería Civil: Construcción. Escuela Técnica Superior de Ingenieros de Caminos, Canales y Puertos. Universidad Politécnica de Madrid. Madrid, 2004.

KOTRAYOTHAR, D. Recycled Aggregate Concrete for Structural Applications. Thesis. School of Computing, Engineering and Mathematics. University of Western Sydney. Penrith, 2012.

KOU, S-C.; POON, C.-S. CHAN, D. Influence of fly ash as cement addition on the hardened properties of recycled aggregate concrete. Materials and Structures. Vol. 41, pp. 1191-1201, 2008.

KOU, S-C.; POON, C.-S. CHAN, D. Influence of fly ash as cement replacement on the properties of recycled aggregate concrete. Journal of Materials in Civil Engineering. Vol. 19, pp. 709-717, 2007.

KOU, S-C.; POON, C.-S. Long-term mechanical and durability properties of recycled aggregate concrete prepared with the incorporation of fly ash. Cement & Concrete Composites. Vol. 37, pp. 12-19, 2013.

KOU, S-C.; POON, C.-S. Mechanical properties of 5-year-old concrete prepared with recycled aggregates obtained from three different sources. Magazine of Concrete Research. Vol. 60, pp. 57-64, 2008.

MANZI, S.; MAZZOTTI, C.; BIGNOZZI, M. C. Short and long-term behavior of structural concrete with recycled concrete aggregate. Cement and Concrete Composites. Vol. 37, pp. 312-318, 2013.

MEHTA, P. K.; MONTEIRO, P. J. M. Concreto: Estrutura, Propriedades e Materiais. São Paulo, 4a edição. Ed. Ibracon, 2014.

OMRAN, B. A.; CHEN, Q.; JIN R. Comparison of Data Mining Techniques for Predicting Compressive Strength of Environmentally Friendly Concrete. Journal of Computing in Civil Engineering. Vol. 30, pp. 1-13, 2016.

PADMINI, A. K.; RAMAMURTHY, K.; MATHEW, M. S. Influence of parent concrete on the properties of recycled aggregate concrete. Construction and Building Materials. Vol. 23, pp. 829-836, 2009.

PEPE, M.; TOLEDO FILHO, R. D.; KOENDERS, E. A. B.; MARTINELLI, E. Alternative processing procedures for recycled aggregate in structural concrete. Construction and Building Materials. Vol 69, pp. 124-132, 2014.

RAO, M. C.; BHATTACHARYYA, S. K.; BARAI, S. V. Behaviour of recycled aggregate concrete under drop weight impact load. Construction and Building Materials. Vol 25, pp. 69-80, 2011.

RAVINDRARAJAH, R. S. TAM, C. T. Recycling concrete as fine aggregate in concrete. The International Journal of Cement Composites and Lightweight Concrete. Vol. 9, pp. 235-241, 1987.

SHI, X.; MUKHOPADHYAY, A.; LIU, K-W. Mix design formulation and evaluation of portland cement concrete paving minxture containing reclaimed asphalt pavement. Construction and Building Materials. Vol 152, pp. 756-768, 2017.

VIEIRA, J. P. B.; CORREIA, J. R.; BRITO, J. Post-fire residual mechanical properties of concrete made with recycled aggregate concrete coarse aggregates. Cement and Concrete Research. Vol. 41, pp. 533-541, 2011.

ZEGA, C. J.; DI MAIO, A. A. Use of recycled fine aggregate in concrete with durable requirements. Waste Management. Vol. 31, pp. 2336-2340, 2011.

Downloads

Published

2023-10-25

How to Cite

Felix, E. F., Lavinicki, B. de M., & Possan, E. (2023). Random forest to predict the elasticity modulus of concretes made with CDW. ENCONTRO NACIONAL DE APROVEITAMENTO DE RESÍDUOS NA CONSTRUÇÃO, 8(00). https://doi.org/10.46421/enarc.v8i00.3719

Issue

Vol. 8 (2023): VIII ENCONTRO NACIONAL DE APROVEITAMENTO DE RESÍDUOS NA CONSTRUÇÃO

Section

Aproveitamento de Resíduos

Similar Articles

<< < 1 2 3 4 5 6 7 8 9 > >> 

You may also start an advanced similarity search for this article.