Sandblasting:
Sandblasting or bead blasting is a process of smoothing, shaping and cleaning a hard surface by forcing solid particles across that surface at high speeds. The effect is similar to that of using sandpaper, but provides a more even finish with no problems at corners or crannies. Once the blasting is done it is advisable to do a layer of Industrial Coating to reduce the risk of corrosion, etc
Acid pickling:
Acid pickling products remove scale, rust and other contaminants from a metal surface and constitutes the final cleaning stage prior to pretreatment of plating. A solution called pickle liquor, which contains strong acids, is used to remove the surface impurities.
Galvanizing:
Hot-dip galvanizing is the process of coating structural steel products with a thin zinc layer, by passing the metal through a molten bath of zinc at a temperature of around 460 °C. When exposed to the atmosphere, the pure zinc reacts with oxygen to form zinc oxide, which further reacts with carbon dioxide to form zinc carbonate, fairly strong material that stops further corrosion in many circumstances, protecting the steel below from the elements.
Shot-blasting, Stripping and T- washing
Sandblasting or bead blasting is a process of smoothing, shaping and cleaning a hard surface by forcing solid particles across that surface at high speeds. The effect is similar to that of using sandpaper, but provides a more even finish with no problems at corners or crannies. Once the blasting is done it is advisable to do a layer of Industrial Coating to reduce the risk of corrosion, etc
Acid pickling:
Acid pickling products remove scale, rust and other contaminants from a metal surface and constitutes the final cleaning stage prior to pretreatment of plating. A solution called pickle liquor, which contains strong acids, is used to remove the surface impurities.
Galvanizing:
Hot-dip galvanizing is the process of coating structural steel products with a thin zinc layer, by passing the metal through a molten bath of zinc at a temperature of around 460 °C. When exposed to the atmosphere, the pure zinc reacts with oxygen to form zinc oxide, which further reacts with carbon dioxide to form zinc carbonate, fairly strong material that stops further corrosion in many circumstances, protecting the steel below from the elements.
Shot-blasting, Stripping and T- washing
