| How does body integration affect vehicle performance?

Body integration refers to the overall integration and optimization of body, chassis, powertrain and other parts in the process of automobile design in order to achieve better performance and safety. Body integration has a significant impact on vehicle performance, which is mainly reflected in the following aspects:

First, body integration can improve the overall rigidity of the car and enhance the stability and handling of the vehicle. By optimizing the body structure, reducing vibration and torsion, the car is more stable at high speed, and the driving comfort and safety are greatly improved.

Secondly, body integration can reduce the wind drag coefficient of the vehicle and improve fuel economy. Through the design of a more streamlined body shape, reduce air resistance, reduce energy consumption, extend mileage, save fuel consumption, and help reduce vehicle operating costs.

In addition, body integration can also improve the aerodynamic performance of the car, improve the stability and handling of the vehicle. By considering the air flow in the vehicle shape design, the air resistance distribution is optimized, the load variation range is reduced, the car is more stable at high speed, and the driving safety is improved.

In general, the impact of body integration on vehicle performance is all-round, involving the stability, handling, comfort, safety and other aspects of the car. Through the optimization and integrated design of the body structure, the car can perform better and provide a safer and more comfortable driving experience for the driver.