RILEM TC 279 WMR round robin study on waste polyethylene modified bituminous binders: advantages and challenges

Tušar, Marjan; Kakar, Muhammad Rafiq Khan; Poulikakos, LilyyD.; Pasquini, Emiliano; Baliello, Andrea; Pasetto, Marco; Porot, Laurent; Wang, Di; Cannone Falchetto, Augusto; Dalmazzo, Davide; Lo Presti, Davide; Giancontieri, Gaspare; Varveri, Aikaterini; Veropalumbo, Rosa; Viscione, Nunzio; Vasconcelos, Kamilla; Carter, Alan (2022). RILEM TC 279 WMR round robin study on waste polyethylene modified bituminous binders: advantages and challenges Road Materials and Pavement Design, 24(2), pp. 311-339. Taylor & Francis 10.1080/14680629.2021.2017330

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inter-laboratory experiments were designed to evaluate the impact of plas- tic waste blended directly in bitumen and to assess the properties, using conventional and advanced bituminous binder testing. The blends tar- geted 5% of plastic waste in 95% bitumen, using two types of polyethy- lene (PE) primary (pellets) and secondary (shreds) waste. The experiments showed that the addition of PE waste to bitumen does not alter the chem- istry of the bitumen, the blending is physical. The DSR results indicate a strong dependency on the testing temperature as at low temperatures the composite material bitumen and PE behave both elastically whereas, at higher temperatures, the bitumen becomes viscoelastic. The MSCR tests indicated that the neat binder is more sensitive to permanent deformation compared to the blends with PE. The fatigue performance using the Linear Amplitude Sweep test showed a better performance in terms of stress and fatigue life for the PE blends.

Item Type:	Journal Article (Original Article)
Division/Institute:	School of Architecture, Wood and Civil Engineering School of Architecture, Wood and Civil Engineering > Institute for Urban Development and Infrastructure > Transport Infrastructure School of Architecture, Wood and Civil Engineering > Institut for Building Materials and Biobased Products IBBM > Mobility and Transport Infrastructure group FGMV
Name:	Tušar, Marjan; Kakar, Muhammad Rafiq Khan; Poulikakos, LilyyD.; Pasquini, Emiliano; Baliello, Andrea; Pasetto, Marco; Porot, Laurent; Wang, Di; Cannone Falchetto, Augusto; Dalmazzo, Davide; Lo Presti, Davide; Giancontieri, Gaspare; Varveri, Aikaterini; Veropalumbo, Rosa; Viscione, Nunzio; Vasconcelos, Kamilla and Carter, Alan
ISSN:	1468-0629
Publisher:	Taylor & Francis
Language:	English
Submitter:	Muhammad Rafiq Khan Kakar
Date Deposited:	23 Feb 2022 09:47
Last Modified:	15 Jan 2023 01:36
Publisher DOI:	10.1080/14680629.2021.2017330
Related URLs:	Publisher
Uncontrolled Keywords:	Asphalt Waste Polyethylene Plastics Performance
ARBOR DOI:	10.24451/arbor.16543
URI:	https://arbor.bfh.ch/id/eprint/16543