Product Details
Place of Origin: China
Brand Name: OEM/ODM
Model Number: Woodworking
Payment & Shipping Terms
Minimum Order Quantity: 5PCS
Price: To be negotiated
Packaging Details: 1.One plastic pipe pack one piece,10 pcs per group 2.Put goods enclosed with air bubble paper into box 3.Other package is accepted according to customer's requirement
Delivery Time: 5-15DAYS
Payment Terms: T/T, Western Union,Alipay
Supply Ability: 1000000000000PCS
Product Name: |
End Mill For Woodworking |
Material: |
Carbide, 100% New Material |
Hardness: |
55-60HRC |
Flute: |
2/3 |
Coating: |
Uncoated,DLC |
Customized: |
OEM Is Hot Welcome |
Product Name: |
End Mill For Woodworking |
Material: |
Carbide, 100% New Material |
Hardness: |
55-60HRC |
Flute: |
2/3 |
Coating: |
Uncoated,DLC |
Customized: |
OEM Is Hot Welcome |
Carbide end mills are commonly used in woodworking because of their durability and ability to cut through tough materials. They are made from a combination of tungsten carbide and cobalt, which makes them strong and resistant to wear and tear.
When selecting a carbide end mill for woodworking, there are a few factors to consider:
1. Type of wood: Different types of wood have varying densities and hardness levels, which can affect the cutting performance of the end mill. For example, hardwoods like oak and maple require a more robust end mill than softwoods like pine and cedar.
2. Flute design: The flute design of the end mill can impact the chip evacuation and cutting performance. A high helix angle, or the angle between the flute and the axis of the end mill, is ideal for wood because it helps to remove chips quickly and efficiently.
3. Coating: Carbide end mills can be coated with various materials, such as titanium nitride or diamond-like carbon, to improve wear resistance and reduce friction. A coating can also help to prevent the build-up of resin and other wood materials on the end mill.
Overall, a carbide end mill with a high helix angle and a coating is ideal for woodworking applications. It is also important to use the appropriate speed and feed rates to ensure optimal cutting performance and prolong the life of the end mill.
Blade Diameter
|
Blade Length
|
Shank
|
Full Length
|
3.1
|
12
|
3.175
|
38.1
|
3.1
|
17
|
3.175
|
38.1
|
3.1
|
22
|
3.175
|
50
|
4
|
17
|
4
|
50
|
4
|
22
|
4
|
50
|
4
|
25
|
4
|
50
|
5
|
17
|
5
|
50
|
5
|
22
|
5
|
50
|
6
|
17
|
6
|
50
|
6
|
22
|
6
|
50
|
6
|
25
|
6
|
50
|
6
|
32
|
6
|
75
|
8
|
22
|
8
|
60
|
8
|
32
|
8
|
75
|
8
|
45
|
8
|
75
|
10
|
35
|
10
|
75
|
10
|
45
|
10
|
100
|
10
|
35
|
10
|
75
|
10
|
45
|
10
|
100
|
10
|
35
|
10
|
120
|
1/4''
|
1"
|
1/4"
|
2-1/2"
|
1/2''
|
2"
|
1/2"
|
4"
|
1/2'
|
2-1/2"
|
1/2"
|
4-1/2"
|
Diameter
|
RPM(min-1)
|
Feed Speed(mm/min)
|
3.1mm
|
20000-24000
|
800-1200
|
4mm
|
20000-24000
|
1000-1600
|
5mm
|
18000-22000
|
1200-2000
|
6mm
|
16000-22000
|
1300-2200
|
8mm
|
16000-20000
|
1400-2300
|
10mm
|
13000-20000
|
1600-2600
|
12mm
|
12000-20000
|
1800-3200
|