3-6mm Shank V Groove Router Bits For 0.5-2.0mm Cutting Depth

Product Description:

Chamfer end mills are frequently utilized in multiple tasks, such as edge breaking, deburring and chamfering. Additionally, they are very suited to forming chamfers on holes or slots when a countersink or a chamfered edge is needed.

When opting for a chamfer end mill to execute CNC machining, some factors should be contemplated:

• Material: The end mill chosen should be appropriate for the particular material being utilized. Different materials necessitate separate cutting tool geometries and coatings for best outcomes.
• Angle: Chamfer end mills can be found in multiple angles, such as 45 degrees, 60 degrees, or tailored-cut angles. This level determines the depth and curvature of the chamfered angle.
• Diameter: The size of the chamfer to be created has to be thought of and an appropriate end mill with a matching diameter should be selected. Smaller diameters are proper for sleeker chamfers, and larger diameters are better suited for noticeable chamfers.
• Flute Count: The number of flutes on the end mill will have an effect on chip extraction and surface finish. End mills with a higher count of flutes are more suitable for certain workings.
• Coating: Enhance the durability of the device, reduce friction and raise chip acknowledgment by using coatings, such as TiN (Titanium Nitride) or TiAlN (Titanium AluminumNitride).

Features:

Carbide chamfer end mills offer a reliable choice for a wide range of machining applications, due to their impressive features. Here is a brief overview of what these tools have to offer:

• Material Composition: Carbide chamfer end mills are made from solid carbide - a composite material composed of tungsten carbide particles bound by cobalt or nickel binder. Carbide is known for its exceptional hardness, wear resistance, and heat resistance.
• Hardness and Wear Resistance: Carbide chamfer end mills have high hardness and can maintain their cutting edge sharpness for extended periods. The hardness also makes them highly resistant to wear, resulting in longer tool life compared to other materials.
• Heat Resistance: Carbide has excellent heat resistance, enabling the end mills to handle high cutting temperatures without losing its hardness. This is especially important for machining material such as stainless steel or titanium.
• Cutting Edge Geometry: Carbide chamfer end mills are available with various cutting edge geometries including single-flute, two-flute, or multiple-flute designs. The specific geometry impacts chip evacuation, cutting stability, and surface finish.
• Coating Options: Carbide chamfer end mills may have coatings such as TiN (Titanium Nitride), TiAlN (Titanium Aluminum Nitride), and AlTiN (Aluminum Titanium Nitride). These coatings provide greater hardness, lubricity, reduced friction, and enhanced chip evacuation.
• Precision and Accuracy: Carbide chamfer end mills are made with high precision and tight tolerances to achieve accurate results and keep the machined workpiece's dimensional accuracy.

Carbide chamfer end mills are a great choice for many machining operations, providing excellent performance combined with durability. Their reliable performance helps improve productivity and reduce tooling costs in the long run.

Technical Parameters:

When using chamfer end mills, it is important to consider several cutting parameters in order to achieve optimal results. Here are some key parameters to keep in mind:

Feed Rate: The feed rate refers to the speed at which the cutting tool advances into the workpiece, typically measured in distance per revolution (inches per minute or millimeters per minute). A proper feed rate ensures efficient material removal and helps prevent tool wear. Adjust the rate based on the material being machined, the tool diameter, and the machine's capabilities.

Cutting Speed: The cutting speed is the relative surface speed between the cutting tool and the workpiece, typically measured in surface feet per minute (SFPM) or meters per minute (m/min). This is influenced by the material and the tool material. Refer to cutting speed recommendations from the tool manufacturer or refer to machining handbooks for appropriate cutting speed ranges.

Depth of Cut: The depth of cut is the distance between the original surface of the workpiece and the final machined surface. It determines how much material is removed during each pass. Consider the tool's diameter and the desired chamfer width when determining the appropriate depth of cut. Avoid excessive depths to prevent overload of the tool or machine.

Stepover: The stepover, also known as radial depth of cut or scallop height, is the distance between each pass of the tool. Experiment with the stepover values to find the optimal balance between productivity and finish quality.

Coolant/Lubrication: Depending on the material being machined, using coolant or lubrication can help dissipate heat, reduce friction and chip welding, and prolong tool life. Refer to the manufacturer's recommendations or machining guidelines for specific coolant/lubrication requirements.

Tool Path Strategy: The choice of tool path strategy can also impact the performance of chamfer end mills. Common strategies include conventional milling (climb milling) and climb milling. Each strategy has its advantages and considerations, so choose the strategy that best meets the needs of your application.

Applications:

Chamfer end mills are versatile tools for performing several operations on a variety of materials. Metals like aluminum, steel, stainless steel, brass, and copper can be machined to create chamfered edges, countersink holes, and remove burrs. Plastics like acrylic, polycarbonate, nylon, and ABS can also be machined with chamfer end mills for achieving a smooth finish without causing melting or chipping. Also, these end mills are suitable for machining wood, both softwoods and hardwoods, to create beveled edges. Moreover, they are suitable for machining composites, such as fiberglass-reinforced plastics (FRP) and carbon fiber composites, that require specific cutting tools. In specialized applications, chamfer end mills even work on ceramics, albeit with diamond or ceramic coatings.

The performance and tool life of chamfer end mills depend on the selection of the appropriate type and cutting parameters. These must also consider the material properties such as hardness, brittleness, and thermal conductivity.

Customization:

Chamfer End Mill is a kind of cutting tool for machining chamfer. It is made of high-quality carbide material with high hardness and high wear resistance. Brand Name: SUPAL. Model Number: Chamfer. Place of Origin: Changzhou, Jiangsu. Minimum Order Quantity: 10PCS. Price: To be negotiated. Packaging Details: Each one with plastic pipe, 10pcs per group. Delivery Time: 7-15Days. Payment Terms: T/T, Paypal, Alipay. Supply Ability: 100000000000PCS. Material: Carbide. Product Name: Chamfer End Mill. Cutting Depth: 0.5-2.0mm. Angle: 45°60°90°120°. Radius: 0.5-2.0mm.

The Chamfer End Mill is produced by SUPAL, and it is widely used for chamfer milling cutter, chamfer end mills, chamfer end mills cutter. It has a high hardness and wear resistance due to its high-quality carbide material. It has a cutting depth range of 0.5-2.0mm and offers various angles such as 45°60°90°120°. The radius range is 0.5-2.0mm.

The Chamfer End Mill is supplied in 10PCS per group with each one in a plastic pipe. The minimum order quantity is 10PCS. The price is negotiable and the delivery time is 7-15Days. The payment terms are T/T, Paypal, and Alipay. The supply ability is 100000000000PCS.

Support and Services:

Chamfer end mills are designed to provide superior performance and reliability in the fabrication of various materials. Our technical support and service team is available to help with any questions or issues you may have.

For technical support, our experts are available 24/7 to answer any questions you may have. We also provide troubleshooting guides, installation instructions, and user manuals to help you get the most out of your Chamfer End Mill.

Our service team is also available to provide on-site maintenance and repair services. We use only the highest-quality parts and components to ensure your end mill is running optimally. We also offer a wide range of customization services, allowing you to tailor your end mill to your specific requirements.

If you have any questions or need additional technical support or service, please contact us.

Packing and Shipping:

Chamfer End Mill Packaging and Shipping:

Chamfer End Mill products are packaged in sturdy cardboard boxes, with the product securely cushioned to prevent any damage during transit. The boxes are then sealed with plastic and affixed with a shipping label.

All orders are shipped via a reliable carrier and are tracked to ensure safe delivery to their destination. Once shipped, customers are provided with a tracking number to monitor the progress of their package.