@article{10902/20727,
year = {2020},
month = {12},
url = {http://hdl.handle.net/10902/20727},
abstract = {ABSTRACT: The potential recyclability of healable asphalt mixtures has been analyzed in this paper. A healable porous asphalt mixture with steel wool fibers was artificially aged in order to assess its recyclability. This mixture was used as reclaimed asphalt in a new porous asphalt mixture, whose mechanical and healing capacities were studied and compared with the behavior of the original porous asphalt mixture. The quantity of reclaimed asphalt mixture added was 40%; besides, in order to recover the properties of the aged binder, and incorporate the last advances in the recyclability of bituminous mixtures, a rejuvenator was also added (SYLVAROADtm RP1000). The voids test, Cantabro particle loss test, water sensitivity test, stiffness test, and fatigue resistance test were performed to mechanically study the experimental mixture, while the last one (fatigue resistance test) was also used to assess its healing capacity. The results have shown that the healing capacity of the original healable porous asphalt mixture is maintained with similar mechanical performance.},
publisher = {MDPI},
publisher = {Sustainability 2020, 12(23), 9962},
title = {Recyclability Potential of Induction-Healable Porous Asphalt Mixtures},
author = {Lastra González, Pedro and Indacoechea Vega, Irune and Calzada Pérez, Miguel Ángel and Castro Fresno, Daniel},
}