Steel rails are protected against electrical hazards through a process called bonding. This involves connecting the rails to a grounding system that helps dissipate any electrical currents that may occur, reducing the risk of electrical shocks or damage. Additionally, various insulation materials and coatings are applied to the rails to provide an extra layer of protection against electrical hazards.
Steel rails are protected against electrical hazards through the process of bonding and grounding. Bonding ensures that all sections of the steel rails are electrically connected, creating a continuous path for electrical currents. Grounding provides a direct connection to the earth, allowing any excess electrical energy to safely dissipate. Together, bonding and grounding protect steel rails from electrical hazards, ensuring the safety of railway operations.
Steel rails are protected against electrical hazards through a process called bonding. Bonding ensures that the rails are electrically connected and grounded to prevent the buildup of static electricity and the occurrence of electrical discharges. Additionally, rail tracks are designed with insulation materials and protective coatings to minimize the risk of electrical hazards.