Choose your country or region


South Africa

EN

Canada

FR EN

México

ES EN

United States

EN

Australia

EN

China / 中国

ZH EN

India

EN

South Korea / 대한민국

KO EN

Malaysia

EN

Singapore

EN

Taiwan / 台灣

ZH EN

Thailand

TH EN

Vietnam

VI EN

Česká Republika

CS EN

Denmark

DA EN

Deutschland

DE EN

España

ES EN

France

FR EN

Ireland

EN

Österreich

DE EN

Polska

PL EN

Schweiz / Suisse / Svizzera

DE FR IT EN

Sweden

SV EN

Netherlands

NL EN

Norway

EN

Global

EN

Please start typing to get suggestions.

Website results

Suggestions are being loaded.


Product suggestions

Suggestions are being loaded.


Corrosion Protection Coatings

A hex socket head cap screw with zinc flake coating for corrosion protection.The vast majority of fasteners supplied in the world market are made from carbon steel. Carbon steel is a popular choice due to its high strength and load-bearing capability. Heat treatment to enhance the structural properties of the steel works very effectively.

However, carbon steel fasteners if exposed to external factors such as water, varying temperatures, or contaminants like salts, can corrode quickly if not protected with a corrosion resistant coating.

 

Zinc Coating for Corrosion Protection

Zinc is one of the most cost effective and commonly used fastener coatings for corrosion protection, making it a popular coating for all kinds of metal fasteners including screws, bolts, washers, nuts, studs, or rivets.

Zinc coating provides corrosion resistance by acting as a barrier and sacrificial coating.

  • Barrier Protection: Barrier protection acts by isolating the metal from humidity and other contaminants.
  • Sacrificial coating: In this method, a less noble metal or alloy is used for protection. The less noble metal corrodes first, thus providing the desired sacrificial protection.

Different Types of Zinc Coating

Zinc can be applied by using different coating processes. The most popular methods are zinc electroplating, hot dipped galvanizing (HDG), zinc flake coating, and mechanical zinc plating.

 

Zinc Electroplating with Blue / Yellow / Thick Layer Passivation (CrVI)-free

Electroplated coating systems ISO 4042

Hex head screw with zinc electroplatingIn the zinc electroplating process zinc ions are deposited from an electrolyte by applying electrical voltage. This creates a thin coating of zinc on the surface.

Post-plating treatments: Passivations are processes by which metal surfaces are made more resistant to corrosion by generating non-metallic protective layers, so-called conversion layers. The various passivation processes  blue passivation, thicklayer passivation, black passivation, yellow passivation, etc.  differ in terms of corrosion protection, appearance, colouring and passivation layer thickness.

 

Mitigating the risk of hydrogen embrittlement

Heat treatment (baking) after plating reduces the risk of possible parts failure. However, if your goal is to eliminate the risk of hydrogen embrittlement completely, other coating processes like mechanical plating or zinc flake coating should be considered.

Learn more about Hydrogen Embrittlement

 

Mechanical Zinc Plating with Blue / Yellow / Thick Layer Passivation (CrVI)-free

Mechanically deposited coatings of zinc ISO12683

Conical spring washer with mechanical zinc platingThe mechanical zinc plating method is used to prevent hydrogen embrittlement in steel fasteners with high strength / hardness. The parts to be coated are loaded in a barrel with proprietary chemicals, glass beads and zinc powder and tumbled. During tumbling, the glass beads peen zinc powder onto the part.

Generally, this method is suitable for fasteners with a simple geometry, which ensures zinc coating to all surfaces.

Post-plating treatments: Post-treatments of mechanical plating are similar to those used in electroplating.

 

Zinc Flake Coating (CrVI)-free

Non-electrolytically applied zinc flake coating systems ISO 10683

Hex socket head cap screw with zinc flake coatingZinc flake coatings are non-electrolytically applied coatings to prevent hydrogen embrittlement in high strength / hardness steels. These coatings typically contain a mix of zinc and aluminium flakes in a binder. The coating is applied as a liquid material in the same way as conventional paint, generally using a dipping process, then centrifuged and baked.

Zinc flake coatings have excellent corrosion protection properties. This kind of coating is less recommended for threaded parts ≤M5 and for fasteners with small internal drives.

Additional topcoats: To increase the corrosion protection further, an inorganic or organic topcoat can be applied. These topcoats not only provide even higher corrosion protection, but also a more uniform appearance.

 

Hot Dip Galvanizing

Hot dip galvanized coatings ISO10684

Hex head screw hot dip galvanizedHot-dip galvanizing is carried out by dipping the parts in molten zinc at temperatures of over 530°C. Immediately after dipping, a centrifugal process is used to remove the excess zinc, reducing the thickness of the zinc layer to values around 40 - 60 µm.

The corrosion protection from hot-dip galvanizing lasts much longer than electroplating zinc due to the greater coating thickness. However, the resulting zinc layer thickness requires special thread dimensions / tolerances, and is only feasible starting from thread size M8 and up.

 

Corrosion Protection Coatings: Evaluation

The corrosion resistance of a coating is strongly dependent on the type of plating or coating applied, the passivation products used, the use of additional topcoats and sealants as well as the applied thicknesses of the individual layers.

To support you in choosing the right method for you, we have created an interactive online tool:

Selection of Material and Coatings for Corrosion Protection

Preview Selector Tool Corrosion Protection Coatings