Steel rails are protected against damage caused by landslides or slope instability through various measures such as slope stabilization techniques, installation of retaining walls, and geotechnical monitoring systems. These methods help to prevent or mitigate the impact of landslides on railway tracks, ensuring the safety and functionality of the rail infrastructure.
Steel rails are protected against damage caused by landslides or slope instability through various measures. One common approach is the installation of rockfall protection systems, such as catch fences or barriers, along the railway tracks. These structures are designed to intercept and absorb the impact of falling rocks or debris, preventing them from reaching the rails. Additionally, geotechnical engineering techniques, like slope stabilization measures, are employed to reinforce and secure the slopes adjacent to the railway, reducing the risk of landslides. Regular monitoring and maintenance activities also play a crucial role in identifying potential hazards and promptly addressing them to ensure the safety and integrity of the steel rails.
Steel rails are protected against damage caused by landslides or slope instability through various measures. These include the use of protective structures such as retaining walls, rockfall barriers, and slope stabilization techniques like soil nailing or anchoring. Regular monitoring and inspection of the railway tracks are conducted to identify potential slope instability issues, and appropriate maintenance and repair works are carried out promptly. Additionally, advanced technologies like geotechnical instrumentation and early warning systems are employed to detect any signs of slope movement, ensuring timely intervention to minimize the risk of damage to steel rails.