Zhuzhou XinHua Cemented Carbide Co., Ltd.
Zhuzhou XinHua Cemented Carbide Co., Ltd. Carbide Cutting Inserts-Turning inserts, Milling inserts, Cermet inserts and Aluminium inserts.
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APMT1604 APMT1135 Carbide Milling Insert for Steel and Stainless Steel with High performance Compare to Mitsubishi
Specification:
| item name | APMT1135 APMT1604 |
| Place of Origin | Zhuzhou |
| Model Number | various |
| Workpiece | Steel and Stainless Steel |
| Application | milling |
| Color | Gold/Black/Gray |
| Hardness | various |
| Coating | PVD/CVD |
| Material | Tungsten Carbide |
Description:
Finishing and semi-finishing for materials difficult to cut PVD coated grade
PVD coated grade,new TiAIN based multilayer coating,has higher wear resistance and Anti-thermak-oxidation ability,it is suitable for finishing and semi-finishing turning and milling of various materials difficult to cut,such as high temperature alloy,heat resistant alloy,etc.
The tough basis material of carbide and the innovative coating technology ensure excellent wear resistance and strong coating adhesion for long tool life and stable machining.
Solid carbide provides better rigidity than high speed steel. It is extremely heat resistant and used for high speed applications on 45steel, cast iron, nonferrous materials, plastics and other tough-to-machine materials.
| Product features
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Application:
The shape of an insert has a major influence on the impact resistance of the carbide. The weakest section of a milling insert is the corner, which is exposed to constant interrupted cuts and extreme heat changes. Since a round insert has no corners, it is more secure than any other shape.
Consider the tremendous forces that are placed on a milling insert in a typical cut. As the insert enters the cut, it is subjected to a large compressive load. The initial contact between the cutting edge and the workpiece may be very unfavorable depending on the position of the cutter in relation to the workpiece. As the insert moves through the cut, the chip thickness is constantly changing, varying the radial and axial cutting forces. Finally, as the insert leaves the workpiece, it is subjected to tensile stresses that break down the carbide. The chip bending away from the insert places large tensile or "ripping" stress on the face of the carbide.
In addition to normal milling operations, there are certain applications that are particularly damaging to carbide. Here are some of the most difficult jobs that demand a lot of strength from the shape of the insert:
