关键词: 车门防撞梁；侧面碰撞；安全性；轻量化

Abstract: To balance the side impact protection and lightweight requirements of automotive doors, this paper establishes a door impact model in accordance with FMVSS214 impact regulations and analyzes the deformation and energy absorption characteristics of each door component under side impact via simulation. When a rigid column strikes the door, each component deforms and absorbs energy. The anti-collision beam serves as the core energy-absorbing component, absorbing 1 220 J of energy, accounting for 49.86% of the total internal energy, with a peak impact force of 12.6 kN and an average impact force of 9.27 kN. Furthermore, three types of anti-collision beams with circular, square and hat-shaped cross-sections are selected, and the average impact force is applied to compare their impact stress, deformation and other performances. The results show that the hat-shaped anticollision beam, due to its groove structure, exhibits a stress of 472.9 MPa, a displacement of 27.32 mm and the lightest mass, delivering optimal comprehensive crashworthiness. It is of great significance for improving the side impact safety of automotive doors and achieving lightweight goals.

Key words: door impact beam; side collision; safety; lightweight