Compared with ordinary steel anchors, what are the significant advantages of zinc alloy anti-collision anchors in terms of anti-collision performance?

Compared with ordinary steel anchors, zinc alloy anti-collision anchors show significant advantages in anti-collision performance. Zinc alloy has high hardness and a certain degree of toughness, which allows it to better absorb and disperse impact forces when struck, reducing damage to surrounding structures and materials. Zinc alloy also has strong wear resistance and can maintain good anti-collision performance during long-term use.
Although steel has high strength and hardness, it has relatively poor toughness and may be more prone to breakage or deformation when struck. The corrosion resistance of steel is also not as good as that of zinc alloy, and it is easily damaged in humid or corrosive environments, thus affecting its anti-collision performance.
The design of zinc alloy anti-collision anchors usually pays more attention to anti-collision performance, and its structure can better adapt to the distribution and transmission of impact force. When struck, zinc alloy anti-collision anchors can maintain good stability and integrity, reducing impact damage to surrounding structures and materials.
When ordinary steel anchors are subject to a strong impact, due to their relatively low toughness, they may break or deform due to their inability to effectively absorb and disperse the impact force. This can not only cause the anchor itself to fail, but can also cause serious damage to surrounding structures and connections. Broken steel anchors can produce sharp fragments, increasing the risk of personal injury and potentially causing equipment damage or downtime. In humid or corrosive environments, ordinary steel anchors are susceptible to erosion, causing surface rust and corrosion pits. Not only will this weaken the anchor's strength and toughness, it may also accelerate its wear process. Long-term corrosion and wear will reduce the reliability and service life of steel anchors and increase the cost of maintenance and replacement.
Due to its higher hardness and toughness, zinc alloy anti-collision anchors can better withstand and disperse impact forces, reducing damage caused by impact. Even under strong impact, zinc alloy anchors can maintain good integrity and stability, thereby protecting surrounding structures and connections. The wear resistance of zinc alloy also enables it to maintain good anti-collision performance during long-term use and reduce performance degradation caused by wear. Zinc alloy has good corrosion resistance and wear resistance, and can maintain good performance in humid or corrosive environments. This reduces anchor failure and maintenance costs due to corrosion and wear. The corrosion resistance of zinc alloy also means that it can be used outdoors or in environments exposed to harsh weather conditions without being too affected.
It is more suitable for environments with small impact force and weak corrosiveness, such as general building structures, mechanical equipment, etc. In these scenarios, steel anchors can provide sufficient strength and stability to meet basic fixing and connection needs. It is especially suitable for scenes that need to withstand large impact forces, such as vehicle passages, logistics warehouses, etc. In these scenarios, zinc alloy anti-collision anchors can provide better anti-collision performance and durability, protecting surrounding structures and connections from damage. Zinc alloy anti-collision anchors are also suitable for use in humid or corrosive environments, such as chemical plants, seaside facilities, etc. In these scenarios, the corrosion resistance and wear resistance of zinc alloy can enable it to maintain better performance and extend its service life.