During high-speed or emergency braking, brake pads need to convert a large amount of kinetic energy into heat energy in a very short time, causing a rapid rise in local temperature.
During high-speed or emergency braking, brake pads need to convert a large amount of kinetic energy into heat energy in a very short time, causing a rapid rise in local temperature.
In modern transmission systems, the planet carrier, as a core component connecting planetary gears and the output shaft, plays a crucial role in transmitting torque and supporting rotation.
As a core safety component of the automotive braking system, brake discs are subjected to frequent thermal cycling and mechanical loads during long-term use, making them highly susceptible to thermal fatigue and structural cracking.
The assembly of wheel hubs and tires is a crucial step in automobile manufacturing and maintenance. Controlling the fit clearance directly affects the uniformity of tire wear, driving stability, and vehicle safety.
In the production of brake pads, the pressing process is crucial for controlling density uniformity, as it directly affects whether the product will have localized areas of excessive softness.
As crucial components connecting the tires and axles, automotive wheel hubs play a vital role in the overall stability of the vehicle at high speeds. The quality of dynamic balance directly affects whether the vehicle will experience vibration, drift, or