Product Details
Place of Origin: Changzhou,Jiangsu,China
Brand Name: OEM/ODM
Certification: ISO9001
Model Number: CNC Tools
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: 100000000000PCS
Coating: |
AlTiN, TiAIN, Naco,Tin,DLC,Customized |
Cutting Edge Geometry: |
Varies |
Cutting Edge Material: |
Varies |
Cutting Direction: |
Varies |
Shape: |
End Mill |
Cutting Edge Type: |
Varies |
Helix Angle: |
35/38/40/45 |
Overall Length: |
38-200mm |
Coating: |
AlTiN, TiAIN, Naco,Tin,DLC,Customized |
Cutting Edge Geometry: |
Varies |
Cutting Edge Material: |
Varies |
Cutting Direction: |
Varies |
Shape: |
End Mill |
Cutting Edge Type: |
Varies |
Helix Angle: |
35/38/40/45 |
Overall Length: |
38-200mm |
Tungsten steel end mills, also known as tungsten carbide end mills, offer several advantages compared to other types of end mills, such as those made from high-speed steel (HSS). Here are some of the key advantages:
Hardness and Wear Resistance: Tungsten carbide is an extremely hard and wear-resistant material. Tungsten steel end mills exhibit much higher hardness than HSS end mills, allowing them to maintain their cutting edge for longer periods. This results in extended tool life and reduced tool change frequency, improving productivity and reducing downtime.
Heat Resistance: Tungsten carbide has excellent heat resistance, enabling tungsten steel end mills to withstand high cutting temperatures. This is particularly important in high-speed machining operations where excessive heat can lead to tool failure. The heat resistance of tungsten steel end mills contributes to their durability and performance in challenging machining applications.
Cutting Speed and Efficiency: Due to their hardness and heat resistance, tungsten steel end mills can be operated at higher cutting speeds compared to HSS end mills. This allows for faster material removal rates and increased machining efficiency. The ability to achieve higher cutting speeds can significantly reduce machining time, resulting in improved productivity.
Versatility: Tungsten steel end mills are versatile tools that can be used for a wide range of materials and machining applications. They can effectively cut various materials, including metals (steel, stainless steel, aluminum, etc.), plastics, composites, and even hardened materials. This versatility makes tungsten steel end mills suitable for different industries and machining requirements.
Surface Finish: Tungsten steel end mills can produce excellent surface finishes on workpieces. The sharp cutting edges and precise geometries of these end mills result in smooth and accurate cuts, minimizing the need for additional finishing operations. This is particularly important in industries where high-quality surface finishes are required, such as aerospace and mold making.
Stability and Rigidity: Tungsten steel end mills are known for their stability and rigidity during machining. The rigid construction and high torsional strength of these end mills help to minimize vibration and chatter, ensuring better dimensional accuracy and surface finish. This is especially advantageous when machining complex or intricate geometries.
While tungsten steel end mills offer numerous advantages, it's important to note that they are relatively more brittle than HSS end mills. They should be used with proper cutting parameters and techniques to prevent chipping or breakage. Additionally, tungsten steel end mills are typically more expensive than HSS end mills, but their longer tool life and improved performance often justify the investment in many machining applications.
When using tungsten steel end mills, it's important to consider the appropriate cutting parameters and techniques to achieve optimal results and maximize tool life. Here are some common cutting parameters and techniques to consider:
Cutting Speed: The cutting speed is the surface speed of the cutting tool and is typically measured in meters per minute (m/min) or surface feet per minute (sfm). For tungsten steel end mills, higher cutting speeds can be employed compared to HSS end mills due to their superior heat resistance. However, the cutting speed should be within the recommended range for the specific material being machined to avoid excessive heat generation and potential tool wear.
Feed Rate: The feed rate is the distance the cutting tool advances into the workpiece per revolution and is usually measured in millimeters per tooth (mm/tooth) or inches per tooth (ipt). The feed rate should be chosen based on the material being machined, the tool diameter, and the desired cutting forces. A proper feed rate helps maintain chip control, reduces tool wear, and prevents excessive tool deflection.
Depth of Cut: The depth of cut refers to the axial depth of the tool's engagement with the workpiece. It is important to choose an appropriate depth of cut that balances material removal rate and tool life. A shallow depth of cut can reduce cutting forces and heat generation, while a deeper cut can increase productivity but may lead to higher cutting forces and tool wear. It's essential to consider the specific material and the capabilities of the machine tool when determining the depth of cut.
Coolant/Lubrication: Using a suitable coolant or lubrication is crucial when machining with tungsten steel end mills. Coolant helps dissipate heat generated during cutting, prolongs tool life, and improves surface finish. It also aids in chip evacuation and reduces the risk of built-up edge formation. Depending on the machining operation and material being machined, different types of coolants or lubricants, such as water-soluble oils or cutting fluids, may be used.
Tool Path and Machining Strategy: The tool path and machining strategy can have a significant impact on the performance and tool life of tungsten steel end mills. Using appropriate tool paths, such as climb milling or conventional milling, can help minimize tool deflection and vibration. Employing adaptive machining strategies or trochoidal milling can optimize tool engagement and chip evacuation, enhancing efficiency and reducing wear.
Tool Holder and Machine Rigidity: The rigidity and stability of the tool holder and machine tool are vital for achieving optimal performance with tungsten steel end mills. A rigid setup helps minimize vibration, tool deflection, and chatter, leading to better surface finish and dimensional accuracy. It's essential to ensure proper tool holder selection, secure clamping, and adequate machine rigidity when using tungsten steel end mills.
It is important to note that the cutting parameters and techniques can vary depending on the specific material being machined, the machine tool capabilities, and the desired machining objectives. Manufacturers' recommendations, cutting data charts, and consulting with tooling experts can provide valuable guidance for selecting appropriate cutting parameters and techniques for specific applications.
Tungsten steel end mills are widely used in various machining applications across different industries. These end mills are known for their high hardness and wear resistance, making them suitable for a broad range of cutting and milling operations.
Some common applications for tungsten steel mills include general milling, metalworking, aerospace industry, mold and die making, automotive industry, and woodworking and composites.
General milling operations such as facing, profiling, slotting, and contouring can be easily accomplished with tungsten steel mills. They are also suitable for cutting and milling a wide range of metals, such as steel, stainless steel, aluminum, brass, and cast iron. The aerospace industry uses tungsten steel mills to create the precise features on components like aircraft parts, engine components, and structural elements.
Mold and die makers rely on the high precision and surface finish of tungsten steel end mills to accurately machine complex shapes and contours on molds and dies. These end mills are also capable of machining tough materials like hardened tool steels used in mold and die production.
Tungsten steel mills are a popular choice in the automotive industry, as they are able to remove material and create precise features on engine components, transmission parts, brake components, and other automotive components. For woodworking and composite materials applications, these end mills reliably cut wooden panels, doors, and furniture components, and additionally, are suitable for machining fiberglass, carbon fiber, and laminates.
We provide customized service of carbide end mill with the following features:
Our carbide end mill is ideal for cutting tools, milling cutter, router bits, drill bits, etc.
Carbide End Mill provides technical support and services to customers. We offer free technical advice and assistance to help customers choose the right products for their application. Our customer service team is always available to answer any questions and provide helpful guidance. Our technicians are experienced in troubleshooting and resolving complex issues. We provide a warranty for our products and will replace any defective or damaged product. In addition, we offer a range of after-sales services including maintenance, repair, and replacement of parts.
Carbide End Mill packaging and shipping:
Each Carbide End Mill is individually packaged in a plastic bag, placed in a cardboard box, and then sealed with tape. The box is then placed in a shipping box along with protective padding to ensure safe delivery.
