First, the brake working temperature
Temperature monitoring: Using infrared thermometer and other tools, the temperature of the brake during working is measured regularly. If the brake temperature continues to be too high, it may mean that the heat dissipation environment is not good.
Temperature change trend: observe the change trend of brake temperature with working time. If the temperature rises rapidly and is difficult to reduce, or abnormal temperature fluctuation occurs during work, it may be a sign of heat dissipation environmental problems.
Second, the analysis of heat dissipation conditions
Ventilation environment: check the ventilation around the brake. Good ventilation environment helps to dissipate heat and reduce the brake temperature rise. If the brake is installed in a closed or poorly ventilated space, it may affect its heat dissipation effect.
Heat dissipation area: evaluate whether the heat dissipation area of the brake is sufficient. The larger the heat dissipation area, the more conducive to heat dissipation. If the brake design is compact and the heat dissipation area is limited, additional heat dissipation measures may be needed.
Third, the brake material and design
Thermal conductivity of materials: Understand the thermal conductivity of materials used in brakes. Materials with good thermal conductivity contribute to the transfer and dissipation of heat. If the brake material has poor thermal conductivity, it may affect the heat dissipation effect.
Structural design: analyze whether the structural design of the brake is reasonable and beneficial to heat dissipation. For example, some brakes are designed with fins or grooves to increase the heat dissipation area and improve the heat dissipation efficiency.
Fourth, external environmental factors
Atmospheric temperature: High temperature environment will aggravate the heat dissipation burden of the brake. Under extreme high temperature conditions, even if the heat dissipation environment of the brake is good, the temperature may be too high.
Humidity and dust: Excessive humidity or dust accumulation may affect the heat dissipation effect of the brake. Humidity may cause dew condensation on the brake surface, while dust may block the heat dissipation channel.
Fifth. Brake performance
Braking efficiency: Observe whether the braking efficiency of the brake is stable during working. If the braking efficiency drops obviously, it may be related to the high brake temperature caused by poor heat dissipation environment.
Wear and tear: check the wear and tear of the brake regularly. If the wear is extremely serious, it may be that the brake is overheated due to poor heat dissipation, thus aggravating the wear.
