Salt bath nitriding

Salt bath nitriding starts off with a heat treatment of the workpieces at approx. 350°C. This treatment is followed up with the creation of a protective diffusion zone in a 580 °C nitriding bath consisting of a salt melt. During this treatment, both nitrogen and carbon penetrate the surface of the component.
 
To attain the desired properties, the cyanide/cyanate content of the salt melt is regulated. The duration of the treatment may vary between a few minutes to several hours, depending on the type of steel. Once the treatment time has elapsed, water, oil, or a polymer are used to quench the workpieces.
 

Post-treatment in an oxidation bath: Tenifer QPQ process

During the Tenifer QPQ process, after the nitriding bath the workpieces are immersed in an oxidation bath. The cyanide clinging to the workpieces is neutralised at 380°C. This process takes between 10 and 15 minutes. The workpieces are then quenched with water. Tenifering produces an extremely high level of corrosion resistance, frequently surpassing even galvanic edge layers. In addition, the workpieces gain a refined blackened surface.
 

The advantages of salt bath nitriding/salt bath nitrocarburising at a glance

• Improved resistance to wear and corrosion
• Increased fatigue resistance
• Pleasing aesthetics of the components thanks to blackening oxidation
• Minimum warping makes reworking the components unnecessary
• Reliably reproducible results
• Short treatment times
• The nitrided layer is heat-resistant up to 600°C
• Partial hardening possible
• High-alloy and high-chromium steels can also be treated

In general, all grades of steel are suitable for salt bath nitriding. However, certain alloy steels are especially suitable for this process. The process is a particular favourite in mechanical engineering and the automotive industry.
 

Summary: Typical real-world applications

• Mechanical and apparatus engineering
• Vehicle construction
• Precision engineering
• Automotive industry

Summary: Which materials are suitable?

• Steel materials
• Cast materials
• Sintered materials
• Non-alloy materials
• Low-alloy materials
• Medium-alloy materials

If you would like us to treat your workpieces or materials with a salt bath nitriding process, we will gladly advise you on the best procedure. You can use the check list below to make your preparations for the order.

 
• Which material is to be treated, and what is its condition?
• What is the target hardness (including tolerance range in HV)?
• What is the desired nitriding hardness depth (including tolerance range in mm)?
• If applicable, which areas are to be salt bath nitrided, and where can the hardness be measured?
• If applicable, how thick should the compound layer be (including tolerance range in μm)?

Note:
We use a sample that we take ourselves to measure the thickness of the compound layer and/or the nitriding hardness depth. For measurements that are specifically related to your order, we need you to provide us with a reference component that is intended for the hardening treatment.

You can see which surface hardnesses can be achieved in the material table at the bottom of the page.
 
The maximum hardness ultimately depends on the material used. All information subject to change.
 
PDF
 
https://www.lingenhoele.at/wp-content/uploads/Lingenhoele_Werkstoffkennwerte_Nitrieren.pdf

We offer state-of-the-art salt bath nitriding processes at the following locations: location overview