2016
DOI: 10.3141/2574-03
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Effect of Polymer and Oil Modification on the Aging Susceptibility of Asphalt Binders

Abstract: Oxidative aging causes hardening of asphalt binders and, consequently, contributes to the deterioration of asphalt pavements. The principal cause of asphalt aging and embrittlement in service is the atmospheric oxidation of molecules with the formation of highly polar and strongly interacting functional groups containing oxygen. Therefore, aging is a complex process in unmodified asphalt binders, and the complexity increases for modified binders. The dynamics of world resource economics suggest that the asphal… Show more

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Cited by 21 publications
(6 citation statements)
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“…These functional groups are not found in petroleum-based bitumen; hence, they are typical attributes of bio-oil [ 350 , 351 ]. A reduction in the intensity of carbonyl peaks is attributed to the decrease of the overall asphaltene percentage, consequently decreasing the carbonyl functional groups [ 352 , 353 ]. It was found that the addition of bio-oil caused a significant change in the SARA composition of bitumen, where the resin content was increased and the aromatics were decreased.…”
Section: Enhancements Of Plastomer-modified Bitumen Due To Chemical Modifiersmentioning
confidence: 99%
“…These functional groups are not found in petroleum-based bitumen; hence, they are typical attributes of bio-oil [ 350 , 351 ]. A reduction in the intensity of carbonyl peaks is attributed to the decrease of the overall asphaltene percentage, consequently decreasing the carbonyl functional groups [ 352 , 353 ]. It was found that the addition of bio-oil caused a significant change in the SARA composition of bitumen, where the resin content was increased and the aromatics were decreased.…”
Section: Enhancements Of Plastomer-modified Bitumen Due To Chemical Modifiersmentioning
confidence: 99%
“…It was determined that oil modification alone did not reduce aging susceptibility and in fact showed the largest change in complex shear modulus after aging. It was also found that aging susceptibility is dependent on the interaction between polymer and oil phases, and that bio-oils combined with elastomers demonstrated the highest rheological aging index, and the re-refined waste engine oil showed the lowest aging index relative to the FTIR analysis ( 6 ).…”
mentioning
confidence: 99%
“…e molecular weight (Mw) of five asphalt increased significantly after aging in Figure 7(a). e naphthene and polar aromatics produce more asphaltenes after aging, and the increase in asphaltene leads to larger size of the asphaltene structure [40]. In Figure 7(a), the Mw of asphalt phase for compound modified asphalt increased relatively rapidly after aging.…”
Section: Analysis Of Gpcmentioning
confidence: 95%