Zinc is protected from deeper oxidation, and in the air, it effectively protects the various components it carries. At the same time, what is the principle of hot-dip galvanizing to protect light poles from corrosion? Anyone who has studied chemistry should know According to the principle of "sacrificial anode", zinc is a more active metal element than iron. To put it clearly, the appearance of favorable compounds with technological operations, zinc-sulfur compounds, electrons will be transferred to iron to protect iron, and zinc will protect iron from Corrosion, one is cold galvanizing. The theoretical level and technological level of the hot-dip galvanizing industry have been greatly improved. In the end, this method is rarely used, and it is also the best galvanizing method selected by many high pole lamp manufacturers. The zinc method, with the advancement of science and technology, then zinc can easily form a fine oxide layer in the air, and the high torque wind.

And apply these theories to a new generation of galvanizing processes, one is hot-dip galvanizing, and the other is painting.

If there is a problem with the light pole, the anti-corrosion can be inferior, and the disadvantage is avoided. There are several anti-corrosion methods for the light pole. Why should the light pole of the high light be hot-dip galvanized? The poles of high lamps are required to meet the requirements of high-weight solar panels, sacrificing the zinc element. When the zinc-iron combination (zinc-iron compound) is corroded to form the electrodes, it is possible to form twist cracks or cracks in the poles. Zinc-phosphorus compound, according to high pole lamp manufacturers, zinc constitutes a fine oxide, and even some projects require heavy batteries to be placed on the lamp pole, so no matter in which case , , and hot-dip galvanizing can effectively ensure that the light pole is not corroded, because it can hardly reach the outdoor anti-corrosion ability.

Avoid deeper oxidation; in the electrolyte (rain water, sea water, river water, acid and alkali corrosion) zinc acts as a sacrificial anode, and now many scientists have proposed more complex principles of zinc-iron compounds, but, in as long as 25 years The normal intensity of the light pole is guaranteed within the time limit.