Galvanizers Image Header Galvanizers Image Header
   Galvanizers Image Header
ABOUT US blue dot ABOUT GALVANIZING blue dot ABOUT US blue dot AWARDS blue dot PUBLICATIONS
spacer
blue dot
spacer
GALVANIZING PLANTS spacer TECHNICAL DATA spacer CONTACT US spacer CORROSION RATES spacer ENVIRONMENTAL BENEFITS
PROCESS & COATING
PHYSICAL PERFORMANCE
HOW GALVANIZING PROTECTS STEEL
HOW GALVANIZING PROTECTS STEEL EXPLAINED
CORROSION PERFORMANCE
COSTS & ECONOMICS
SPECIFYING HOT DIP GALVANIZING
DESIGNING ARTICLES FOR GALVANIZING
JOINING GALVANIZED STEEL
PAINTING & POWDER COATING OF GALVANIZED STEEL

spacer 		spacer
Galvanizing is unique - tough, long lasting, self-healing and covers internal and external surfaces.

BARRIER PROTECTION
-
Galvanizing provides a barrier between all internal and external steel surfaces and their environment. Galvanizing is a term often wrongly used to describe zinc coatings in general. The diagram below illustrates how the different types of zinc coatings vary in terms of coating thickness. The life expectancy of a zinc coating is largely determined by its thickness. Thicker coatings give longer life. Hot dip galvanizing provides fabricated iron or steel products with maximum protection through a continuous, tough, metallurgically bonded coating of much greater thickness.



PROTECTION BY SACRIFICIAL ACTION
-
Zinc corrodes in preference to steel and sacrifices itself to protect the steel, hence hot dip galvanizing will provide this sacrifical action. The corrosion products from the zinc are deposited on the steel resealing it from the atmosphere and therefore stopping corrosion. With paint coatings, additional protection would have to be applied immediately after the damage occurred or the steel would rust with eventual break down of the whole coating as rust crept underneath the paint film.

     
     
HOT DIP GALVANIZED COATING  PAINT COATING COATING OF MORE ELECTRO
-POSITIVE METALS THAN STEEL





A galvanic cell is formed. The zinc around the point of damage corrodes. Corrosion products precipitate on the steel surface and protect it. The steel is also protected because it is cathodic in relation to the zinc coating.

The steel rusts where the paint film has been damaged. Rust creeps under the paint film, which is lifted up from the steel surface. Corrosion continues until the damage has been repaired.

Nickel, chromium and copper - give rise to more rapid corrosion at the point of damage than if the steel had been uncoated. The corrosion often takes the form of pitting, which can even go through the steel.


Schematic to illustrate the consequence of damage to different types of coating offering corrosion protection
spacer 
spacer
Galvanizers Association © 2008All rights reserved Design: Un.titled