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| Brand Name: | AMG |
| Model Number: | Standard/Customized |
| MOQ: | 3 |
| Price: | Request Quote |
| Attribute | Value |
|---|---|
| Name | High Precision Carbide Swallowtail Cutter For Plastic Moulds |
| Coating | PVD coating (TiAlN, DLC, etc., customizable) |
| Product name | Surface Finish Optimized Tool |
| Suitable for | Alloy Steel, Stainless Steel, Titanium Alloy, etc |
| Express | TNT, DHL, EMS |
The AMG high-precision hard alloy swallowtail milling cutter is designed specifically for plastic mold processing. It uses high-quality GU25UF ultra-fine particle hard alloy material and is manufactured with advanced PVD coating technology. It is suitable for plastic mold swallowtail groove processing scenarios that require high dimensional accuracy and surface quality.
| Parameter | Description |
|---|---|
| Material | GU25UF high-performance ultra-fine grain carbide |
| Coating Type | PVD coating (TiAlN, DLC, etc., customizable) |
| Tool Diameter | 3mm - 20mm (customizable) |
| Tool Length | 50mm - 150mm (customizable) |
| Dovetail Angle | 7°, 10°, 14°, 20°, and other specifications |
| Number of Flutes | 2 or 3 flutes |
| Shank Diameter | 6mm, 8mm, 10mm, 12mm, various sizes |
| Surface Roughness | Ra 0.2 - 0.4 μm (high surface finish) |
This carbide swallowtail cutter rotates at high speed to cut swallowtail grooves in plastic mould materials precisely. Made from GU25UF material, the tool has exceptional hardness and toughness to bear cutting wear and impact.
The PVD coating reduces friction and heat generation between tool and workpiece, preventing melting and sticking of plastic during cutting, which enhances machining efficiency and surface quality. The swallowtail design ensures accurate groove dimensions and angles to meet mould assembly requirements.
GU25UF is high-performance ultra-fine grain carbide offering high hardness and toughness, capable of bearing the high cutting forces and impacts in plastic mould machining.
PVD coatings greatly enhance wear resistance and heat tolerance, reduce friction and cutting temperature, and prevent material adhesion and premature tool wear.
Select the angle based on mould design and assembly precision requirements. Common angles are 7°, 10°, and 14°, with customer angles available for complex structures.
Depending on machining conditions and cutting parameters, tool life can be 30%-50% longer compared to conventional carbide cutters.
