The hot-dip galvanized cable bracket has an extremely high load-bearing capacity, mainly due to its special manufacturing process. Compared with the traditional cold-dip galvanizing process, the hot-dip galvanizing process can make the zinc layer and the substrate more tightly bonded, forming a composite protective layer with stronger corrosion resistance and wear resistance. 
During the manufacturing process, hot-dip galvanized cable brackets need to undergo strict heat treatment and machining to ensure their load-bearing capacity and stability. Heat-treated steels have better mechanical properties and stability, and are able to withstand greater external loads. Machining can ensure the accuracy and size accuracy of the bracket, making the bracket installation more convenient and fast. 
In addition to the superiority of the manufacturing process, the load-bearing capacity of the hot-dip galvanized cable bracket is also related to its design. The design of the bracket should fully consider factors such as the weight of the cable, the span of the bracket, and the installation environment. In the design, the span of the bracket should be reduced as much as possible and the number of brackets should be increased to improve the bearing capacity of the stent. In addition, the environment in which the bracket is installed will also have an impact on its load-bearing capacity. In humid, corrosive and other environments, corresponding anti-corrosion and anti-rust measures should be taken to prolong the service life of the stent. 
In a word, the hot-dip galvanized cable bracket has an extremely strong load-bearing capacity, which is due to its special manufacturing process and excellent design. When choosing a cable bracket, factors such as its bearing capacity, corrosion resistance, wear resistance, and installation environment should be fully considered to ensure the safety and longevity of the bracket.