The Whole Process Of The Zinc Spraying Machine

During the whole process of the zinc spraying machine, the top of the wire can be evenly fed into the metal composite material to habitually appear in the whole process of melting and atomization. The melting of the metal composite material is attributed to the heat effect of the electric isolation. During the whole process of painting, the melting of the wire does not belong to the same process. It is more chaotic and the fluctuation is very large, so the anodizing treatment is lower than the negative temperature. Let's take a look at the factors affecting the atomization of the zinc sprayer.

1. Air flow

The actual effect of atomization has a lot to do with the airflow. The atmospheric airflow can promote particle acceleration and evenly distribute the particles, but it will be limited by social and economic aspects. Excessive air pressure will increase the consumption of compressed air, resulting in an increase in production costs.

2. The performance of melting wire

The performance of molten wire mainly refers to viscosity and surface tension. The greater the viscosity of the droplet, the greater the surface tension, and the coarser the atomized particles. The molten metal composite material with low viscosity and small surface tension is easy to deform; high viscosity increases the instability of the droplet in the segment, making the droplet easy to crack; atomization is accompanied by many random surfaces, and the lower the surface tension, the easier it is to crack. Casual surface is more likely to cause.

3. Characteristics of arc area

If the temperature of the arc zone is higher, the heating effect of the air flow will be stronger for the wire material, and the melting of the wire material also has a great relationship with the air flow rate of atomization and the temperature of the atomized air flow and the temperature of the arc zone. Zinc spraying machine is solitary that the nozzle industrial equipment becomes smaller and the airflow cooling becomes smaller. The mechanical energy in the arc area is concentrated and its temperature is increased, which can improve the expected effect of atomization.