The various processes for protecting steel from corrosion using zinc and their characteristics
Hot Dip Galvanizing (General Galvanizing)
A batch process in which prepared steel is immersed in molten zinc at around 450°C (galvanizing of fabricated articles in accordance with BS EN ISO 1461). A metallically bonded coating of zinc-iron alloy layers is formed with an outer layer of pure zinc. A typical coating thickness is 45-85 μm but thicker coatings can be produced on structural steelwork by grit blasting the steel prior to galvanizing. A coating thickness of up to 140 μm may be then specified. Use of high silicon steel enables a still thicker coating of 200 μm to be specified. Hot Dip galvanized coatings are simply specified, reproducible and easy to inspect: if the coating looks continuous and sound, it is so. The thickness can be easy checked without damaging coating.
Continuous Galvanizing
The continuous hot dip galvanizing of steel strip (EN 10346), wire (EN 10244-2) and tube (EN 10240) involves passing through molten zinc in an automated plant. Although alloyed with base steel, the coating is generally much thinner than batch galvanizing (typically 7-42 μm on sheet, 5-30 μm on wire and 25-55 μm on tube) and is predominantly a zinc layer on the base steel. The hot dip galvanized sheet may be formed into finished item as part of the production process.
Thermal Zinc Spraying
Grit blasted steel surfaces are coated with droplets of semi-molten zinc sprayed from a special gun fed by either zinc wire or powder (EN ISO 2063). The coatings aren`t alloyed with the base steel and while the coating can be built-up to the required thickness (typically 50-150 μm) they are always slightly porous, requiring an organic sealant to be applied. The coating is always sensitive to shortcomings in the preparation of the steel and require a level of skill in their application, however they cannot normally be applied to the inside of tubes and hollow sections.
Metallic Coating with Zinc Dust (Sherardizing)
A process by which suitably prepared small components are tumbled in zinc dust at an elevated temperature below the melting point of zinc under appropriate conditions to develop a coating (see EN 13811:2003 sherardizing). Coatings are relatively thin (typically 20-30 μm) but are metallurgically bonded to the base steel and closely follow the contour of the steel parts.
Zinc Mechanical Plating
A process similar to sherardizing but conducted at a lower temperature whereby components are tumbled with zinc dust which is impacted on to the steel surface by glass beads to form a coating which is typically 5-25 μm in thickness.
Zinc-Rich Painting
Process in which clean steel surfaces are coated using paints containing a high proportion of metallic zinc dust particles to develop a film which can conduct electricity. The formulation and application of the paint needs careful control for satisfactory performance. Paint films are comprised of zinc particles of flakes and other components, that may vary significantly from 10-120 μm.
Zinc Electro-Plating
A Zinc salt solution is used to electrolytically deposit a layer of zinc on a cleaned steel surface. Acid or alkaline electrolytes (some may contain cyanide) can be used (EN ISO 2081). Only very thin coatings are economically feasible (typically < 10 μm) and coatings are generally uniform on geometrically simple shapes.
Cathodic Protection
Cathodic protection is a method of corrosion protection in which a zinc anode is connected to the steel component in the presence of an electrolyte. Specification of anodes are covered by ASTM B418 and the rate of anode consumption will depend strongly upon the service environment.
For a given environment, the life of a zinc coating is directly proportional to its thickness. Although zinc coatings can be applied by several different processes, only hot dip galvanizing provides a continuous, tough, mettalugically bonded coating of substantial and uniform thickness inside and outside. The bar chart below shows how widely the thickness of zinc coatings can vary and emphasizes the need to be aware of those which may not give the lifetime and performance required. It is also important to ensure that all parts of steel structure have equivalent protection, since premature failure of the coating on small parts (e.g. fasteners) can result in major structures requiring maintenance long before it would otherwise be necessary.
Note: Hot Dip Galvanized coatings are sometimes defined by weight of zinc per unit area. For instance, an 85 μm coating is equivalent to 610g/m2 . It is important to remember that when coating weights are specified for steel sheet, the weights include both sides of the sheet so that the life of the coating is half that for equivalent coating weight specified in BS EN 10346.
Characteristics of different zinc coating systems
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You can find more information about Hot Dip Galvanizing on Galvanizing Association website