关键词: FSAE 赛车；轮边制动系统；模态分析；仿真优化；热管理

Abstract: The wheel-end braking system serves as a critical chassis subsystem whose thermal management performance directly governs vehicle handling stability and operational safety. This study implements multidisciplinary co-optimization of wheel-end braking system cooling for the "INNOVATION6" formula society of automotive engineers (FSAE) racing car. Utilizing CATIA for 3D parametric modeling and ANSYS for thermal-fluid coupling simulations, heat dissipation bottlenecks are systematically identified. These analyses are integrated with a VI-Grade-based driver-in-the-loop (DIL) simulation platform to holistically quantify dynamic performance impacts. Post-optimization results confirm a 36% enhancement in heat dissipation efficiency that substantially mitigates brake thermal fade risks, accompanied by a 10% increase in braking efficiency. Closed-loop simulation tests further demonstrate a 3% reduction in lap time. These validated improvements underscore the efficacy of thermal optimization in enhancing wheel-end braking system performance. The proposed methodology provides a robust theoretical foundation and practical design guidelines for developing lightweight, high-efficiency heat dissipation, and reliable design of wheel-end braking systems in FSAE racing applications.

Key words: FSAE racing car; wheel-end braking system; modal analysis; simulation optimization; thermal management