Introduction:
High Precision and Accuracy:
Turning inserts are designed to provide precise and consistent cuts, ensuring high-quality finishes and adherence to tight tolerances.
Excellent Surface Finish:
Turning inserts are capable of producing high-quality surface finishes, reducing the need for subsequent finishing operations.
Quick Tool Changes:
Indexable inserts can be quickly and easily changed, reducing downtime and keeping the production line running smoothly.
Versatility:
Turning inserts can be used on a variety of materials, including carbon steel, stainless steel, cast iron, aluminum, titanium, nickel alloys, and more.
Various Applications:
Suitable for a wide range of turning operations, including roughing, finishing, threading, and grooving.
Durability:
High-quality materials and advanced coatings, like titanium nitride (TiN) or titanium aluminum nitride (TiAlN), enhance the wear resistance and longevity of turning inserts.
Heat Resistance:
These inserts can withstand the high temperatures generated during turning operations, maintaining performance over extended periods.
Improved Chip Control:
The geometry of turning inserts is designed to optimize chip formation and evacuation, improving machining efficiency and reducing the risk of damaging the workpiece or tool.
Efficient Chip Removal:
Good chip control contributes to a more stable machining process and better surface finish.
Interchangeable Inserts:
Inserts can be easily swapped out for different shapes, sizes, and materials depending on the specific turning operation.
| Inserts ISO Code | Grade | Dimensions(mm) |
| TNMG160404-TM | NG202 / N5555 | D: 9.525 / T: 4.76 / d: 3.81 / R: 0.40 |
| TNMG160408-TM | NG202 / N5555 | D: 9.525 / T: 4.76 / d: 3.81 / R: 0.80 |
| TNMG160412-TM | NG202 / N5555 | D: 9.525 / T: 4.76 / d: 3.81 / R: 1.20 |
Grade Reference:
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