The integration of into the electric vehicle (EV) sector—often referred to as electromobility or "e-mobility" tech work—is a critical driver for the next generation of transportation . By replacing traditional heavy metals with high-strength, lightweight composites, manufacturers can address the primary engineering challenges of electric vehicles: range anxiety and battery weight. 1. Fundamentals of FRP in E-Mobility
: FRP offers superior specific strength compared to steel. In crash scenarios, these composites are engineered to absorb energy through specific failure mechanisms like fiber rupture and delamination, protecting the occupants and the battery.
High-strength continuous fibers like glass (GFRP) or carbon (CFRP) provide the material's main mechanical strength and stiffness.
