Joint parts: The joint parts of a robot need to withstand high-speed and high-precision motion. Ceramic bearings have the characteristics of low friction, high hardness, and high rigidity, making them suitable for the rotating parts of joints.
Walking part: The walking part of a robot usually needs to withstand large loads and vibrations. Ceramic bearings have good wear and corrosion resistance, and can provide reliable performance in harsh working environments.
Arm part: The arm part of a robot needs to quickly and accurately complete grasping and placement actions. The low friction characteristics and high rigidity of ceramic bearings make it an ideal choice for arm joints.
Rotating part: The rotating part of a robot, such as a rotating platform or turntable, typically requires high speed, precision, and durability. The high hardness and low friction characteristics of ceramic bearings make them an ideal choice for these areas.
It should be noted that although ceramic bearings have many advantages in robots, their relatively high cost and brittleness should also be considered. In specific applications, it is necessary to comprehensively consider the working requirements, performance requirements, and economic costs of robots to select appropriate bearing materials and types.
