Product Details
Place of Origin: Changzhou,Jiangsu,China
Brand Name: Supal
Certification: ISO9001
Payment & Shipping Terms
Minimum Order Quantity: 10PCS
Price: To be negotiated
Packaging Details: Single Plastic Tube
Delivery Time: 7-15DAYS
Payment Terms: T/T 100%
Supply Ability: 1000000000PCS/MONTH
Number Of Flutes: |
1/2/3/4 |
Flute Length: |
1-1/4 Inch |
Shank Diameter: |
1/4 Inch |
Number Of Pieces: |
5 |
Cutting Edge Style: |
Square End |
Type: |
End Mill |
Center Cutting: |
Yes |
Material: |
Tungsten Steel |
Number Of Flutes: |
1/2/3/4 |
Flute Length: |
1-1/4 Inch |
Shank Diameter: |
1/4 Inch |
Number Of Pieces: |
5 |
Cutting Edge Style: |
Square End |
Type: |
End Mill |
Center Cutting: |
Yes |
Material: |
Tungsten Steel |
Carbide end mills with three flutes are a popular choice when it comes to machining aluminum due to the delicate balance of material removal rate and surface finish they provide. When selecting an end mill for aluminum, these factors should be taken into consideration:
By taking these factors into account, and consulting with tooling suppliers or manufacturers, it will be easier to choose the best carbide end mill for aluminum machining.
Material Removal Rate: The number of flutes influences the material removal rate (MRR) during aluminum machining. End mills with fewer flutes typically have larger chip spaces between the flutes, allowing for more efficient chip evacuation. This can result in higher MRR, making two-flute end mills popular for roughing operations where quick material removal is desired.
Surface Finish: The number of flutes also affects the surface finish of the machined aluminum part. End mills with more flutes tend to produce a smoother surface finish because the smaller chip spaces between the flutes result in smaller chips being produced, reducing the chances of leaving visible tool marks on the workpiece.
Rigidity and Stability: The number of flutes can impact the rigidity and stability of the end mill during machining. End mills with more flutes distribute cutting forces more evenly across the cutting edges, reducing the likelihood of chatter or vibration. This improved stability can be beneficial, especially in finishing operations where achieving high precision and surface quality is crucial.
Chip Evacuation: The number of flutes plays a role in chip evacuation, particularly in aluminum machining where chips can be stringy and tend to stick to the cutting tool. End mills with fewer flutes generally have larger chip spaces, allowing for better chip evacuation and minimizing the chances of chip re-cutting, which can lead to poor surface finish or chip buildup.
Ultimately, the choice of the number of flutes depends on the specific requirements of your aluminum machining operation. Two-flute end mills are commonly used for roughing or high material removal rate applications, while three or more flutes are often preferred for finishing operations that require a smoother surface finish and improved stability. It's essential to consider factors such as MRR, surface finish requirements, and the stability of your milling setup when selecting the appropriate number of flutes for your end mill.
Supal Precision Aluminum End Mill for Slotting Aluminum 3/8 inch 3flute
Supal precision aluminum machining end mill for slotting aluminum 3/8 inch 3flute end mill for aluminum is a reliable tool for precision performance.
Aluminum End Mill technical support and services include:
Aluminum End Mills are packaged and shipped in protective cardboard boxes to ensure they arrive safely and undamaged. Each box is clearly labeled with the product name, quantity, and any relevant safety information. Depending on the size of the order, the packages may be shipped via small parcel or LTL freight carrier.
We take extra care to package and ship our Aluminum End Mills with the utmost of care. Each item is sealed in a protective bag and placed in a cardboard box with cushioning materials to protect it from the rigors of transit. All packages are shipped with a tracking number and insurance against any damage or loss.
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