Effect of graphene oxide dosage on the thermal and rheological behavior of asphalt for tropical road conditions.
Erick Mendoza, Talia Tene, Jorge Albuja-Sánchez, Guisella Cuenca, John Ramón, David Anzules, Cristian Vacacela Gomez, Yolenny Cruz Salazar, Lorenzo S Caputi, Salvatore Straface
Abstract
Open AccessThis study investigates graphene oxide (GO) as a low-percent modifier for AC-30 asphalt used in tropical conditions. GO was added at 0.2, 0.4, and 0.6 wt% and tested through standard binder tests and RTFO short-term aging. Unaged binders with GO showed increased viscosity and hardness-viscosity rose by up to approximately 26%, penetration decreased by about 8%-13%, and the softening point rose slightly-indicating a stiffer initial matrix. During mixing at 135 °C-165 °C, both rotational and kinematic viscosities increased, with the highest gains near 0.4 wt%, suggesting a non-linear response to dosage. Under RTFO aging, GO-modified binders exhibited a higher viscosity aging index than the unmodified AC-30, indicating that GO enhances initial stiffness and does not compromise short-term oxidative hardening. Flash and fire points did not show systematic reductions at these dosages. Overall, sub-percent GO improves high-temperature rheology relevant for hot-climate pavements, but there is a trade-off between better early rutting resistance and potential stiffening with aging. Future research will include PAV/DSR testing and analysis of dispersion better to understand long-term behavior and processing at the plant level.