- Equivalent Standards
- Chemical Composition
- Cutting Speeds Recommendation
- Recommended Carbide Grades
- Cutting Edge Geometry
Material Nickel 200 Alloy Menu:
| General Information: | ||
|---|---|---|
| Material Group | S - Superalloys (Heat resistant and Titanium) | |
| Sub-Group | Superalloy | |
| Hardne | 45.0 HRB | |
| Tensile Strength | 310 [N/mm^2] | |
| Machinability Range | 15% - 45% | |
Equivalent International Designations for Material Nickel 200 Alloy
| Standard | Name |
|---|---|
| sae | ASME SB-160 - SB-163 |
| din | 17750-17754 |
| uns | UNS N02200 |
Chemical Composition for Material Nickel 200 Alloy
| Element | Amount |
|---|---|
| Nickel (Ni) | 99.8% |
| Iron (Fe) | 0.4% |
| Silicon (Si) | 0.35% |
| Manganese (Mn) | 0.35% |
| Copper (Cu) | 0.25% |
| Carbon (C) | 0.15% |
| Sulfur (S) | 0.01% |
Cutting Speeds Recomendations for Heat resistant Ni or Co Based
* Click on the speeds below for higher precision in specific conditions!
Application Vc (m/min) Vc (SFM) Turning 60-180 200-590 Milling 45-135 150-440 Parting 40-115 130-380 Grooving 55-160 180-520 Drilling 55-160 180-520
Important! The speed estimation is given for an ideal situation:
- Most suitable carbide grade
- Stable tool clamping
- Stable workpiece clamping
- Good quality raw material
- A short overhang of the cutting tool.
- Nominal hardness of the material.
- etc.
Click on the speeds in the above table to get better precision for specific parameters
Or use our Speed and Feed Calculator
Recommended Carbide Grades for Material Nickel 200 Alloy
* If you don't understand the below table? Read This Explanation to make the most out of it!
Grade for Turning
Grade for Parting Off
Grade for Grooving
Grade for Milling (Indexable)
Recommended Insert Cutting Edge Geometry for Material Nickel 200 Alloy
| Application | Vc (m/min) | Vc (SFM) |
|---|---|---|
| Turning | 60-180 | 200-590 |
| Milling | 45-135 | 150-440 |
| Parting | 40-115 | 130-380 |
| Grooving | 55-160 | 180-520 |
| Drilling | 55-160 | 180-520 |
Important! The speed estimation is given for an ideal situation:
- Most suitable carbide grade
- Stable tool clamping
- Stable workpiece clamping
- Good quality raw material
- A short overhang of the cutting tool.
- Nominal hardness of the material.
- etc.
Click on the speeds in the above table to get better precision for specific parameters
Or use our Speed and Feed Calculator
* If you don't understand the below table? Read This Explanation to make the most out of it!
Learn more about carbide inserts Cutting-Edge Geometry Parameters.
