Product Details
Place of Origin: Changzhou,Jiangsu,China
Brand Name: OEM/ODM
Model Number: Woodworking
Payment & Shipping Terms
Minimum Order Quantity: 5PCS
Price: To be negotiated
Packaging Details: Single item
Delivery Time: 7-15days
Payment Terms: T/T
Supply Ability: 100000000PCS
Shank Diameter: |
Varies |
Material: |
Carbide |
Cutting Diameter: |
D1-20mm |
Flute Length: |
Varies |
Cutting Edge Type: |
Varies |
Cutting Edge Geometry: |
Varies |
Number Of Flutes: |
1/2/3/4/5/6/8 |
Coating: |
AlTiN, TiAIN, Naco,Tin,DLC,Customized |
Shank Diameter: |
Varies |
Material: |
Carbide |
Cutting Diameter: |
D1-20mm |
Flute Length: |
Varies |
Cutting Edge Type: |
Varies |
Cutting Edge Geometry: |
Varies |
Number Of Flutes: |
1/2/3/4/5/6/8 |
Coating: |
AlTiN, TiAIN, Naco,Tin,DLC,Customized |
Carbide tools are increasingly being used in woodworking due to their high durability and ability to maintain a sharp cutting edge for longer than traditional high-speed steel (HSS) tools. Examples include:
For cutting intricate designs in wood, I would recommend using carbide router bits with a small diameter and a specialized shape designed for the specific cut you need to make. The smaller diameter of the bit allows for finer detail work, while the carbide material provides increased durability and a longer tool life.
For example, if you need to cut a decorative edge profile, a carbide router bit with a small radius or bead shape would be appropriate. If you need to make a precise groove or dado, a straight flute carbide router bit with a narrow diameter would be ideal. If you need to make a plunge cut, a carbide spiral plunge router bit with a small diameter and a sharp point would be suitable.
It is important to consider the depth of cut and feed rate when using carbide router bits for intricate designs in wood. A shallow depth of cut and a slower feed rate will help prevent chip-out and ensure a clean and precise cut.
Overall, the choice of carbide tool for cutting intricate designs in wood will depend on the specific details of the design and the desired outcome. By selecting the appropriate tool and optimizing the cutting parameters, woodworkers can achieve high-quality results and maintain the longevity of their tools.
The technical data of carbide tools for woodworking differs according to the type of tool and the application. In general, for common types of carbide tools used in woodworking, one should consider the following data points.
Saw blades typically have a high tooth count, within the range of 60 to 100 teeth, and these teeth often have a negative hook angle for safety and performance. The kerf (width of the cut) can be 1/8" to 3/16", depending on their blade diameter.
Carbide router bits, compared to saw blades, come in a wider variety of shapes and sizes, with diameters ranging from 1/8" to 1", and the shank diameter dependent on the size of the router. Its cutting edge geometry can take the form of straight, spiral, or profile shapes.
Turning tools, on the other hand, have a square or diamond-shaped insert with a thickness ranging from 1/8" to 1/2", and can be rotated to a fresh edge when dull.
Lastly, carbide planer and jointer blades for woodworking usually have a thickness of 1/8" to 1/4" and a width of 1" to 2". The number of blades per cutterhead will differ according to the size of the machine and the material being cut.
Other factors to consider for these tools include the material composition, coating (if any), the speed and feed rate of cutting, and surface finish requirements. The correct choice of carbide tool and parameters can bring a woodworker to better results and better tool longevity.
When it comes to carbide tools used in woodworking, there are several coating options available for users to select . However, each of these choices has its unique benefits. Here are some of the most popular coating options:
Titanium Nitride (TiN): This coating is the most commonly used for carbide tools in the field of woodworking. It is a ceramic coating that provides a hard, wear-resistant surface and enhances the longevity of the tool. Additionally, it has a lower coefficient of friction than other options, thus it can prevent burning and achieve better cutting quality.
Titanium Carbonitride (TiCN): This type of coating is very similar to TiN, but it offers more wear resistance. Either of them can help with cutting abrasive materials like particleboard or MDF. Moreover, it has lower coefficient of friction, which allows less heat buildup and more accuracy in the cuts.
Diamond-Like Carbon (DLC): This is a high-quality coating with amazing wear resistance and low friction. Additionally, it is very suitable for cutting materials with high heat such as hardwood or laminates.
Zirconium Nitride (ZrN): Thanks to its hard, wear-resistant surface, ZrN is ideal for cutting materials that are hot to the touch, such as hardwood or laminates. Additionally, its low coefficient of friction can increase the quality of the cut.
Overall, the choice of the coating should depend on the type of application and the material being cut. By selecting the appropriate coating, woodworkers can improve the performance and longevity of the tools while still achieving satisfactory results.
Our Carbide End Mill is made of tungsten steel, providing high-quality cutting performance. It is available with a variety of cutting edge materials, types, and cutting directions. The overall length, feed rate, and other parameters can be customized to meet your requirements.
At XYZ Company, we provide a full range of technical support and service for Carbide End Mill products. Our experienced technical team is available to answer any questions you may have about our products and services. We also provide customised solutions to meet your specific needs. Our technical support and service include:
If you have any questions or need assistance with any Carbide End Mill product, please contact us at support@xyz.com.
Carbide End Mill Packaging and Shipping
Carbide End Mills are packaged in protective plastic tubes and shipped in cardboard boxes. The boxes are labeled with the product name and the manufacturer's logo. The boxes can also be customized with the customer's logo and/or text. The boxes are also designed to protect the product from shock and vibration during transit.