The magic of zinc in corrosion control

By Simon Norton, International Zinc Association, Africa Desk

Zinc is truly a magic metal that few people and few engineers appreciate for its multitude of applications and versatility. For us in the corrosion world, where we seek to extend the life of atmospherically-exposed steel, zinc is best-known in terms of corrosion control.

Zinc has an extraordinary capacity to protect uncoated steel structures

Yet how many architects, designers and consulting engineers truly realise the magic that zinc quietly performs all around us, protecting railways, bridges, concrete, power pylons and mining structures from catastrophic failure due to corrosion? Zinc is an abundant and essential element, non-toxic and safe in use.

Prevent corrosion

Zinc use is extensive to coat steel to prevent corrosion. Zinc oxide is a unique and very useful material in modern civilisation. It’s use in the manufacture of paints; rubber products; cosmetics, pharmaceuticals, floor coverings, plastics, printing inks, soap, storage batteries, textiles, electrical equipment and other products. Zinc sulphide use in making luminous dials, X-ray and television screens and fluorescent lights.

Critical electrical infrastructure on the coast must have zinc galvanized

Zinc has an extraordinary capacity to protect uncoated steel structures against premature corrosion. Zinc alloy with aluminium to form Zincalume; coated onto a thin steel sheet (continuous galvanizing) and receives a resilient organic coating, then that becomes long-lasting as roof sheeting or cladding for buildings.

Hot-dip galvanized items

Where zinc really comes into its own is in hot-dip galvanizing of steel items, wire, poles, steel structures and reinforcing steel for concrete systems. Once the hot-dip galvanizes item and is in contact with the atmosphere or a corrosive environment; then metallurgically bonded to the steel. This is where the magic happens.

Continuously galvanized roof sheeting

Hot dip galvanizing of steel takes place in a galvanizing kettle. Remove the steel from the molten zinc in the kettle. It is ready to paint with an organic coating system to give even more corrosion protection to the steel, or it can be left as-is and exposed to the atmosphere.

When the steel is immersed in the molten zinc in the kettle and removed for cooling; the result is a metallurgically magic system that protects the underlying steel; although in fact with time the zinc is being sacrificed to protect the steel. So, when you are next out and about, take time to see if you can spot a galvanized steel structure. You will be amazed at the prevalence of galvanized steel!