Automated Retaining Wall Grouting Reinforcement: When slopes crack and produce joints and fissures, pressure grouting can be used to reinforce the slope. Under the pressure, the grouting material penetrates into the joints around the well wall, bonding the fractured slope's rocks and soil into a solid mass. Additionally, the mortar columns act as bolts connecting to the fractured slope's rocks and soil, enhancing the integrity and stability of the slope.
Corrosion of Automatic Protection Mesh: Although all components of the system are treated with anti-corrosion measures, the impact of rock collapses may lead to localized mechanical damage to the coating, or it may originate from specific sources (such as corrosive groundwater), thereby reducing the lifespan of the anti-corrosion system. Therefore, it is important to note the particularly severe corrosion of the visible automatic protection mesh during inspections.
If so, continued corrosion should be expected. Therefore, when abnormal corrosion can significantly reduce the lifespan of the system (beyond 10% of the original component size), corrosion measures should consider replacing or strengthening the timely elimination of the corrosion source's potential, to continue the function of anchor rod infection: when rock collapse directly affects the steel wire rope and pulls it up.
When local damage occurs, it may cause two or more steel wires to crack or severely deform in strength. Generally, it is advisable to replace the entire wire rope. The system is adaptable to any sloping terrain, with standardized and systematic installation specifications. The system employs a die-cutting installation method, resulting in a short construction period and low costs. The special manufacturing process of the system materials and the high anti-corrosion and anti-rust technology determine the lifespan of the system.
