The pursuit of sustainable infrastructure has driven research toward innovative road pavement materials that combine environmental benefits with improved mechanical performance. The challenge of this time is to develop pavement solutions that are both durable and eco-friendly. This study explores three porous asphalt mixtures produced using Warm Mix technology, incorporating varying amounts of recycled aggregates and steel industry by-products. A control mixture (C-WPA) was compared with A-WPA, which includes RAP and EAF steel slag, and F-WPA, with the same aggregate composition but with recycled aramid pulp fibres in substitution of the traditional cellulose fibres. Through a deep laboratory analysis based on mechanical and functional tests, F-WPA demonstrated increased performance, exhibiting enhanced mechanical properties, improved fatigue resistance, and reduced abrasion loss. These results highlight the potential of aramid pulp fibres and recycled aggregates as valuable components in Warm Mix Asphalt, aiming to more resilient and sustainable road infrastructure.
De Pascale, B., Tataranni, P., Indacoechea-Vega, I., Rodriguez-Hernandez, J., Lantieri, C. (2025). Mechanical behaviour of sustainable Warm Mix Porous Asphalt reinforced with recycled Aramid Fibres. CONSTRUCTION AND BUILDING MATERIALS, 505, 1-10 [10.1016/j.conbuildmat.2025.144788].
Mechanical behaviour of sustainable Warm Mix Porous Asphalt reinforced with recycled Aramid Fibres
De Pascale, B.;Tataranni, P.
;Lantieri, C.
2025
Abstract
The pursuit of sustainable infrastructure has driven research toward innovative road pavement materials that combine environmental benefits with improved mechanical performance. The challenge of this time is to develop pavement solutions that are both durable and eco-friendly. This study explores three porous asphalt mixtures produced using Warm Mix technology, incorporating varying amounts of recycled aggregates and steel industry by-products. A control mixture (C-WPA) was compared with A-WPA, which includes RAP and EAF steel slag, and F-WPA, with the same aggregate composition but with recycled aramid pulp fibres in substitution of the traditional cellulose fibres. Through a deep laboratory analysis based on mechanical and functional tests, F-WPA demonstrated increased performance, exhibiting enhanced mechanical properties, improved fatigue resistance, and reduced abrasion loss. These results highlight the potential of aramid pulp fibres and recycled aggregates as valuable components in Warm Mix Asphalt, aiming to more resilient and sustainable road infrastructure.| File | Dimensione | Formato | |
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