Armored cables: Excellent performance in high temperature adaptability and radiation resistance in nuclear power environments

In the nuclear power industry, ensuring the safe operation of equipment in high temperature and radiation environments is critical. As a key temperature measurement tool, armored cable plays an important role in nuclear power plants due to its excellent high temperature adaptability and radiation resistance.

High temperature adaptability:

The excellent performance of armored cables in high temperature environments is due to their careful design and use of high temperature resistant materials. First of all, the insulation material of the cable usually uses high temperature resistant materials such as silicone rubber or polytetrafluoroethylene (PTFE) to ensure that the electrical performance of the cable is maintained under extreme high temperatures. In addition, the metal sheath of the cable has good heat dissipation performance, effectively reducing the temperature inside the cable and preventing performance degradation caused by overheating. Conductors made of high-temperature alloys further ensure reliable conductivity under high-temperature conditions.

To verify its high temperature adaptability, armored cables usually undergo rigorous thermal cycle testing to ensure their stability and durability under high temperature and temperature changes. These properties make armored cables an indispensable component in nuclear power plants, enabling them to reliably perform temperature measurement tasks in extremely high-temperature environments.

Radiation resistance:

The radiation environment common in nuclear power plants places additional requirements on cables, and the radiation resistance of armored cables is demonstrated. The metal sheath of the cable plays an important role here, not only providing physical shielding but also effectively protecting the interior of the cable from radiation. By complying with radiation test standards, the armored cable ensures that it can work stably and reliably in nuclear power plants and maintain excellent performance even in environments with high radiation.

Some advanced armored cables may use special radiation shielding technology, such as conductive material covering or special shielding structures, to further enhance resistance to radiation. In the design, they may also undergo long-term radiation stability testing to ensure that there will be no performance degradation due to radiation during the long-term operation of the nuclear power plant.

In summary, armored cables have become an indispensable temperature measurement tool in nuclear power plants due to their high temperature adaptability and radiation resistance. Its design and characteristics ensure stable and reliable performance in the nuclear energy industry, especially in high temperature and radiation environments, providing important support for the safety and reliability of nuclear power plants.