In the road paving sector, the reliance on fossil-derived bitumen is an issue. Here we developed bio-based substitutes of bitumen derived from vegetable oils, such as waste cooking oil (WCO) and epoxidized soybean oil (ESO), engineered to replicate the viscoelastic properties of bitumen through functionalisation and chemical cross-linking processes. Reaction of WCO unsaturated double bonds with molten elemental sulphur (inverse vulcanization) and reaction of ESO with phosphoric acid via its epoxy groups (cross-linking) proved to give final materials with adequate rheological properties. Evidence that the proposed approach is a sustainable alternative for the development of road binders based on renewable resources was given
Alternative bio-binders for road pavement based on cross-linking of oils
pietro calandra
Formal Analysis
;
2026
Abstract
In the road paving sector, the reliance on fossil-derived bitumen is an issue. Here we developed bio-based substitutes of bitumen derived from vegetable oils, such as waste cooking oil (WCO) and epoxidized soybean oil (ESO), engineered to replicate the viscoelastic properties of bitumen through functionalisation and chemical cross-linking processes. Reaction of WCO unsaturated double bonds with molten elemental sulphur (inverse vulcanization) and reaction of ESO with phosphoric acid via its epoxy groups (cross-linking) proved to give final materials with adequate rheological properties. Evidence that the proposed approach is a sustainable alternative for the development of road binders based on renewable resources was given| File | Dimensione | Formato | |
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2026 Mater Letter biobinder crosslink of oils.pdf
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