Abstract
Aiming to study the rheo-mechanical effects of fine crumb rubber into gap graded stone mastic asphalt (SMA) mixtures, a multi-scale experimental approach was adopted. Therefore, in the perspective of the reuse of end of life tires’ in asphalt layers, the adopted new dry-hybrid technology effects have been investigated from the mastic, mortar and mixture points of view. The new rubberized asphalt production technology allows the use of rubber powder as filler, the rubber amount optimization being validated through multi-scale performance tests. Mastics and mortars’ complex modulus measured with dynamic shear and torsional tests were related to the mixture stiffness modulus recorded in direct tension-compression mode. The rheological properties of mastic are strictly influenced by the rubber presence, and consequently the asphalt mixtures stiffness and thermo-sensitivity are connected to the mastic and mortar rheo-mechanical behavior. Results are consistent through the adopted approach and reveal that with the new dry-hybrid technology, overcoming the wet and dry limits, it seems to be possible obtaining more durable and eco-friendly bituminous pavement layers.
Highlights
The first applications of waste rubber form end of Life tires (ELT) for the production of bituminous mixtures date back to the 1960s’
It can be stated that the crumb rubber (CR) effects on the rheo-mechanical behavior can be translated to reduction in the bitumen thermo-sensitivity
The main of this this study was to the rheo-mechanical properties of of mastics, mastics, The main objective objective of study was to evaluate evaluate the rheo-mechanical properties mortars and containing finefine
Summary
The first applications of waste rubber form end of Life tires (ELT) for the production of bituminous mixtures date back to the 1960s’. Since this field of research has gained popularity and the production technologies have gradually tried to couple both material performances and sustainability [1]. Specific bitumen modification plants have been developed to solve these problems, allowing the continuous motion of the rubber particles, spreading them uniformly in the binder volume [6]. The environmental impact of this technology is still consistent, considering the high temperatures needed during the in-plant production and paving operations.
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