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The high hardness and tenacity of BALINIT® FUTURA NANO gives outstanding protection against abrasive wear and erosion, making it ideal for highly stressed precision components even under high thermal conditions. This is also the major benefit for plastic injection moulding and HSS and carbide tools.
The titanium aluminium nitride (TiAlN) structure results in an optimal relation of high hardness to residual compressive stress. This gives great performance especially for highly stressed components and metal forming tools.
For temperature-sensitive components BALINIT® FUTURA NANO ARCTIC is available with a coating temperature of only 200 °C.
| Optimised hardness to residual compressive stress ratio | Excellent coating adhesion Ideal for highly stressed components Uniform wear behaviour |
| Better sliding properties due to higher surface quality | Enhanced demoulding and components surface quality Improved chip flow |
| Greater chemical and thermal stability | Dry machining and minimum quantity lubrication machining Higher cutting speeds |
| Coating hardness HIT [GPa]* | 33 +/- 3 |
| Coefficient of friction (dry) vs. steel** | ~0.6 |
| Max. service temp. [°C]**** | 900 |
| Process temperature [°C] | 500 |
| General remark | All given data are approximate values, they depend on application, environment and test condition. |
| *Coating hardness HIT [GPa] | Measured by nano indentation according to ISO 14577. For multilayers the hardness of the different layers varies. Hardness can be adapted to the application. |
| **Coefficient of friction (dry) vs. steel | Determined by ball-on-disc test in dry condition with an Steel ball according to ASTM G99. During run-in the given values may be exceeded. |
| ****Max. service temp. [°C] | These are approximate values out of the field. Due to thermodynamic laws there is a dependency of pressure in application. |
