RILEM interlaboratory study on the mechanical properties of asphalt mixtures modified with polyethylene waste

Lily D. Poulikakos; Emiliano Pasquini; Marjan Tusar; David Hernando; Di Wang; Peter Mikhailenko; Marco Pasetto; Andrea Baliello; Augusto Cannone Falchetto; Miomir Miljković; Marko Orešković; Nunzio Viscione; Nikhil Saboo; Gabriel Orozco; Éric Lachance-Tremblay; Michel Vaillancourt; Muhammad Rafiq Kakar; Nicolas Bueche; Jan Stoop; Lacy Wouters; Davide Dalmazzo; Gustavo Pinheiro; Kamilla Vasconcelos; Fernando Moreno Navarro

doi:10.1016/j.jclepro.2022.134124

RILEM interlaboratory study on the mechanical properties of asphalt mixtures modified with polyethylene waste

Lily D. Poulikakos^*, Emiliano Pasquini, Marjan Tusar, David Hernando, Di Wang, Peter Mikhailenko, Marco Pasetto, Andrea Baliello, Augusto Cannone Falchetto, Miomir Miljković, Marko Orešković, Nunzio Viscione, Nikhil Saboo, Gabriel Orozco, Éric Lachance-Tremblay, Michel Vaillancourt, Muhammad Rafiq Kakar, Nicolas Bueche, Jan Stoop, Lacy WoutersDavide Dalmazzo, Gustavo Pinheiro, Kamilla Vasconcelos, Fernando Moreno Navarro

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

This research aims to determine if the observed improvements using polyethylene (PE) waste in asphalt binder translate into better performance at the asphalt mixture scale in the laboratory environment while overcoming the stability and homogeneity issues experienced at the binder level. This is accomplished through a round-robin multinational experimental program covering four continents, with the active participation of eleven laboratories within the RILEM TC 279-WMR. PE modified AC16 mixtures were prepared employing the dry process using local materials with the PE waste provided by one source. Various mechanical tests were performed to investigate the compactability, strength, moisture sensitivity, stiffness and permanent deformation. Compared to the control mixtures, the following observations were made for PE modified mixtures: easier to compact, lower time dependence of stiffness, higher elastic behavior, lower creep rate, and higher creep modulus. Furthermore, cyclic compression test results showed that the resistance to permanent deformation is improved when using PE in asphalt mixtures, whereas the wheel tracking tests showed relatively similar or better results when 1.5% PE was added to the control mixture. The wheel tracking test results in water showed an increase in deformation with increasing PE content. The interlaboratory investigation showed that the use of PE as a performance-enhancing additive in asphalt pavements is a viable, environmentally friendly option for recycling waste plastic and could potentially reduce the use of polymer additives in asphalt.

Original language	English
Article number	134124
Number of pages	10
Journal	Journal of Cleaner Production
Volume	375
DOIs	https://doi.org/10.1016/j.jclepro.2022.134124
Publication status	Published - 15 Nov 2022
MoE publication type	A1 Journal article-refereed

Funding

The Swiss company Innoplastics is acknowledged for providing the waste plastics. Empais participation is supported by Swiss National Science Foundation grant SNF 205121_178991/1 for the project titled “Urban Mining for Low Noise Urban Roads and Optimized Design of Street Canyons”. The participation of University of Belgrade, Faculty of Civil Engineering, is supported by the Ministry of Education , Science, and Technological Development of the Republic of Serbia under research project No. 2000092 .

Keywords

Asphalt mixture
Mechanical properties
Polyethylene waste
Recycling
Round robin
Secondary materials

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.jclepro.2022.134124Licence: CC BY

1-s2.0-S0959652622036964-mainFinal published version, 5.4 MBLicence: CC BY

Cite this

Poulikakos, L. D., Pasquini, E., Tusar, M., Hernando, D., Wang, D., Mikhailenko, P., Pasetto, M., Baliello, A., Cannone Falchetto, A., Miljković, M., Orešković, M., Viscione, N., Saboo, N., Orozco, G., Lachance-Tremblay, É., Vaillancourt, M., Kakar, M. R., Bueche, N., Stoop, J., ... Moreno Navarro, F. (2022). RILEM interlaboratory study on the mechanical properties of asphalt mixtures modified with polyethylene waste. Journal of Cleaner Production, 375, Article 134124. https://doi.org/10.1016/j.jclepro.2022.134124

@article{2080f1b482ef40b3997532de842eee0a,

title = "RILEM interlaboratory study on the mechanical properties of asphalt mixtures modified with polyethylene waste",

abstract = "This research aims to determine if the observed improvements using polyethylene (PE) waste in asphalt binder translate into better performance at the asphalt mixture scale in the laboratory environment while overcoming the stability and homogeneity issues experienced at the binder level. This is accomplished through a round-robin multinational experimental program covering four continents, with the active participation of eleven laboratories within the RILEM TC 279-WMR. PE modified AC16 mixtures were prepared employing the dry process using local materials with the PE waste provided by one source. Various mechanical tests were performed to investigate the compactability, strength, moisture sensitivity, stiffness and permanent deformation. Compared to the control mixtures, the following observations were made for PE modified mixtures: easier to compact, lower time dependence of stiffness, higher elastic behavior, lower creep rate, and higher creep modulus. Furthermore, cyclic compression test results showed that the resistance to permanent deformation is improved when using PE in asphalt mixtures, whereas the wheel tracking tests showed relatively similar or better results when 1.5\% PE was added to the control mixture. The wheel tracking test results in water showed an increase in deformation with increasing PE content. The interlaboratory investigation showed that the use of PE as a performance-enhancing additive in asphalt pavements is a viable, environmentally friendly option for recycling waste plastic and could potentially reduce the use of polymer additives in asphalt.",

keywords = "Asphalt mixture, Mechanical properties, Polyethylene waste, Recycling, Round robin, Secondary materials",

author = "Poulikakos, \{Lily D.\} and Emiliano Pasquini and Marjan Tusar and David Hernando and Di Wang and Peter Mikhailenko and Marco Pasetto and Andrea Baliello and \{Cannone Falchetto\}, Augusto and Miomir Miljkovi{\'c} and Marko Ore{\v s}kovi{\'c} and Nunzio Viscione and Nikhil Saboo and Gabriel Orozco and {\'E}ric Lachance-Tremblay and Michel Vaillancourt and Kakar, \{Muhammad Rafiq\} and Nicolas Bueche and Jan Stoop and Lacy Wouters and Davide Dalmazzo and Gustavo Pinheiro and Kamilla Vasconcelos and \{Moreno Navarro\}, Fernando",

note = "Funding Information: The Swiss company Innoplastics is acknowledged for providing the waste plastics. Empais participation is supported by Swiss National Science Foundation grant SNF 205121\_178991/1 for the project titled “Urban Mining for Low Noise Urban Roads and Optimized Design of Street Canyons”. The participation of University of Belgrade, Faculty of Civil Engineering, is supported by the Ministry of Education , Science, and Technological Development of the Republic of Serbia under research project No. 2000092 . Publisher Copyright: {\textcopyright} 2022 The Authors",

year = "2022",

month = nov,

day = "15",

doi = "10.1016/j.jclepro.2022.134124",

language = "English",

volume = "375",

journal = "Journal of Cleaner Production",

issn = "0959-6526",

publisher = "Elsevier",

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Poulikakos, LD, Pasquini, E, Tusar, M, Hernando, D, Wang, D, Mikhailenko, P, Pasetto, M, Baliello, A, Cannone Falchetto, A, Miljković, M, Orešković, M, Viscione, N, Saboo, N, Orozco, G, Lachance-Tremblay, É, Vaillancourt, M, Kakar, MR, Bueche, N, Stoop, J, Wouters, L, Dalmazzo, D, Pinheiro, G, Vasconcelos, K & Moreno Navarro, F 2022, 'RILEM interlaboratory study on the mechanical properties of asphalt mixtures modified with polyethylene waste', Journal of Cleaner Production, vol. 375, 134124. https://doi.org/10.1016/j.jclepro.2022.134124

TY - JOUR

T1 - RILEM interlaboratory study on the mechanical properties of asphalt mixtures modified with polyethylene waste

AU - Poulikakos, Lily D.

AU - Pasquini, Emiliano

AU - Tusar, Marjan

AU - Hernando, David

AU - Wang, Di

AU - Mikhailenko, Peter

AU - Pasetto, Marco

AU - Baliello, Andrea

AU - Cannone Falchetto, Augusto

AU - Miljković, Miomir

AU - Orešković, Marko

AU - Viscione, Nunzio

AU - Saboo, Nikhil

AU - Orozco, Gabriel

AU - Lachance-Tremblay, Éric

AU - Vaillancourt, Michel

AU - Kakar, Muhammad Rafiq

AU - Bueche, Nicolas

AU - Stoop, Jan

AU - Wouters, Lacy

AU - Dalmazzo, Davide

AU - Pinheiro, Gustavo

AU - Vasconcelos, Kamilla

AU - Moreno Navarro, Fernando

N1 - Funding Information: The Swiss company Innoplastics is acknowledged for providing the waste plastics. Empais participation is supported by Swiss National Science Foundation grant SNF 205121_178991/1 for the project titled “Urban Mining for Low Noise Urban Roads and Optimized Design of Street Canyons”. The participation of University of Belgrade, Faculty of Civil Engineering, is supported by the Ministry of Education , Science, and Technological Development of the Republic of Serbia under research project No. 2000092 . Publisher Copyright: © 2022 The Authors

PY - 2022/11/15

Y1 - 2022/11/15

N2 - This research aims to determine if the observed improvements using polyethylene (PE) waste in asphalt binder translate into better performance at the asphalt mixture scale in the laboratory environment while overcoming the stability and homogeneity issues experienced at the binder level. This is accomplished through a round-robin multinational experimental program covering four continents, with the active participation of eleven laboratories within the RILEM TC 279-WMR. PE modified AC16 mixtures were prepared employing the dry process using local materials with the PE waste provided by one source. Various mechanical tests were performed to investigate the compactability, strength, moisture sensitivity, stiffness and permanent deformation. Compared to the control mixtures, the following observations were made for PE modified mixtures: easier to compact, lower time dependence of stiffness, higher elastic behavior, lower creep rate, and higher creep modulus. Furthermore, cyclic compression test results showed that the resistance to permanent deformation is improved when using PE in asphalt mixtures, whereas the wheel tracking tests showed relatively similar or better results when 1.5% PE was added to the control mixture. The wheel tracking test results in water showed an increase in deformation with increasing PE content. The interlaboratory investigation showed that the use of PE as a performance-enhancing additive in asphalt pavements is a viable, environmentally friendly option for recycling waste plastic and could potentially reduce the use of polymer additives in asphalt.

AB - This research aims to determine if the observed improvements using polyethylene (PE) waste in asphalt binder translate into better performance at the asphalt mixture scale in the laboratory environment while overcoming the stability and homogeneity issues experienced at the binder level. This is accomplished through a round-robin multinational experimental program covering four continents, with the active participation of eleven laboratories within the RILEM TC 279-WMR. PE modified AC16 mixtures were prepared employing the dry process using local materials with the PE waste provided by one source. Various mechanical tests were performed to investigate the compactability, strength, moisture sensitivity, stiffness and permanent deformation. Compared to the control mixtures, the following observations were made for PE modified mixtures: easier to compact, lower time dependence of stiffness, higher elastic behavior, lower creep rate, and higher creep modulus. Furthermore, cyclic compression test results showed that the resistance to permanent deformation is improved when using PE in asphalt mixtures, whereas the wheel tracking tests showed relatively similar or better results when 1.5% PE was added to the control mixture. The wheel tracking test results in water showed an increase in deformation with increasing PE content. The interlaboratory investigation showed that the use of PE as a performance-enhancing additive in asphalt pavements is a viable, environmentally friendly option for recycling waste plastic and could potentially reduce the use of polymer additives in asphalt.

KW - Asphalt mixture

KW - Mechanical properties

KW - Polyethylene waste

KW - Recycling

KW - Round robin

KW - Secondary materials

UR - https://www.scopus.com/pages/publications/85138454736

U2 - 10.1016/j.jclepro.2022.134124

DO - 10.1016/j.jclepro.2022.134124

M3 - Article

AN - SCOPUS:85138454736

SN - 0959-6526

VL - 375

JO - Journal of Cleaner Production

JF - Journal of Cleaner Production

M1 - 134124

ER -

RILEM interlaboratory study on the mechanical properties of asphalt mixtures modified with polyethylene waste

Abstract

Funding

Keywords

UN SDGs

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