关键词: 半挂汽车列车；彩色路面；对开路面；附着系数；制动失稳

Abstract: To study the braking instability mechanism of semi-trailer combinations on the split-mu 19% and 9%, respectively. In wet conditions, the colored road exhibits higher adhesion coefficient than the asphalt road and split-mu road by 1.4%. The simulation result indicates that, the max articulation angle ψm and max yaw rate difference ωm of the semi-trailer combination positively correlated with braking force and vehicle speed, while their peak values negatively correlated with the load. The sensitivity of both ψm and ωm to braking force is higher than to vehicle speed. On split-mu roads, the yaw rate difference and folding angle of the vehicle exhibited premature "sudden changes", increasing the risk of lateral instability. This study provides valuable insights into exploring the adhesion coefficient characteristics of split-mu roads and have positive implications for improving the safety of semi-trailer combinations on split-mu roads. road with colored-asphalt sections, and to improve the driving safety of semi-trailer combinations, a test is conducted to analyze the characteristics of the adhesion coefficient on split-mu roads. A five-degree-of-freedom semi-trailer combination model is established, and simulations are performed to analyze the braking stability of the semi-trailer combination on split-mu roads and the influencing factors. The adhesion coefficient test result shows that, under dry conditions, the adhesion coefficient of the asphalt road is higher than that of the colored road and split-mu road by

Key words: semi-trailer combination; colored road; split-mu road; adhesion coefficient; braking instability