Magnetically enhanced bitumen for wireless power transfer in electric roads: Mechanical, rheological, and electromagnetic evaluation of magnetite-modified bitumen

Abstract

The increasing demand in transportation has led to higher petroleum consumption and green-house gas emissions, emphasizing the need for sustainable solutions. Inductive Electric Road Systems (ERS) enable wireless power transfer (WPT) to electric vehicles, but their efficiency is limited by energy losses and low magnetic permeability in conventional asphalt layers. This study develops magnetite-modified bitumen binders to enhance magnetic permeability and system efficiency. Magnetite was incorporated into bitumen at varying concentrations, and its mechanical, rheological, and electromagnetic properties were evaluated. Re-sults indicate a 56% increase in hardness, a 17% improvement in thermal stability, and up to a 3.66% gain in power transfer efficiency, enhancing their suitability for ERS applications. These findings highlight the poten-tial of multifunctional asphalt materials to enhance pavement performance and support road electrification.