0000000000383431

AUTHOR

François Olard

showing 3 related works from this author

Performance of a sustainable asphalt mix incorporating high RAP content and novel bio-derived binder

2019

The recent drive to find ways to increase sustainability and decrease costs in asphalt paving has led researchers to find innovative ways to incorporate more recycled materials and bio-derived binders into mixes with varying success. A new novel bio-derived binder made from refined pine chemistry stabilised with a polymer can increase the sustainability of asphalt mixes while maintaining pavement performance. Laboratory performance testing was conducted on asphalt mixes containing 50% Reclaimed Asphalt Pavement (RAP) by mix weight and the novel bio-derived binder. Results show that the bio-derived binder outperforms the conventional 50/70 pen grade binder mixes with respect to resistance to…

050210 logistics & transportationWaste managementAsphalt021105 building & construction0502 economics and business05 social sciencesSustainability0211 other engineering and technologiesEnvironmental scienceSettore ICAR/04 - Strade Ferrovie Ed Aeroporti02 engineering and technologybio-binder RAP rejuvenator sustainable pavementsCivil and Structural Engineering
researchProduct

From Laboratory Mixes Evaluation to Full Scale Test: Fatigue Behavior of Bio-Materials Recycled Asphalt Mixtures

2020

The present paper describes the full-scale accelerated test, carried out on asphalt pavements made up with bio-materials, especially designed to help reusing Reclaimed Asphalt (RA) by re-activating the aged binder. Four pavement sections were evaluated: three pavement sections with innovative bio-materials (bio-recycled asphalt mixtures), and a reference section with a conventional, high modulus asphalt mix (EME2). In this study, fatigue resistance was first evaluated in laboratory, with two-points bending test, and then at full scale under heavy traffic loading, with the IFSTTAR accelerated pavement testing facility. The evolution of bio-materials recycled asphalt mixture characteristics, …

Accelerated pavement testingMonitoringBending (metalworking)Reclaimed AsphaltFull scaleBio basedModulusBio-materialAsphaltAccelerated pavement testEnvironmental scienceGeotechnical engineeringFull scale testHeavy trafficFatigue test
researchProduct

From Laboratory Mixes to Full Scale Test: Rutting Evaluation of Bio-recycled Asphalt Mixes

2021

The present paper describes the rutting behavior of innovative mixes incorporating 50% of Reclaimed Asphalt (RA) with bio-materials. They were assessed in the laboratory and in a full-scale accelerated experiment. The innovative mixes studied here contained bio-materials especially designed to help recycling by re-activating the aged binder from RA. Four mixes were evaluated: three of them are manufactured with bio-materials, (two bio-rejuvenators and one bio-binder) and one was a control mix, which was a high modulus asphalt mix (EME2). In this study, the rutting resistance of the four mixes was first evaluated in the laboratory with both European and US methods. The full-scale test was th…

RutAsphaltSettore ICAR/04 - Strade Ferrovie Ed AeroportiEnvironmental scienceGeotechnical engineeringFull scale testAccelerated pavement test Bio-materials Laboratory test Reclaimed asphalt Rutting test
researchProduct