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Home ProductsThread Mill CutterHigh Performance Thread Mill Cutter / CNC End Mill Bits For Wood Steel
High Performance Thread Mill Cutter / CNC End Mill Bits For Wood Steel
High Performance Thread Mill Cutter / CNC End Mill Bits For Wood Steel High Performance Thread Mill Cutter / CNC End Mill Bits For Wood Steel
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High Performance Thread Mill Cutter / CNC End Mill Bits For Wood Steel

Minimum Order Quantity : 1PC Price : Negotiation
Packaging Details : 1PC/ PVC Packing, 10pcs PVC Packing/Pack... Delivery Time : 1-35days
Payment Terms : T/T, L/C,Paypal... Supply Ability : 10000pcs/week
Place of Origin: MADE IN CHINA Brand Name: KTC
Certification: CCC Model Number: Thread Mill Cutter

Detail Information
Product Name: End Mills Raw Material: GU25UF
Flutes No.: 3/4 Flutes Hardness: >92HRA
Material: Carbide Precision: High Precision
High Light:

thread cutting end mill

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milling machine end mills

Product Description

High Performance Thread Mill Cutter / CNC End Mill Bits For Wood Steel

 

KTC Thread Mill Cutter

 

Specifications:

The tungsten steel thread milling cutter is made of high-quality ultrafine tungsten steel material at home and abroad, with bending strength of 4300mpa and particle size of 0.4μm. With this kind of tool, the cutting in thread milling of M1.0 and above can be completed in an instant. Innovative thread milling cutter: core hole drilling and thread milling can be completed in one working step with only one cutter. Especially, thread milling cutter is suitable for copper, aluminum, medium and high carbon steel, die steel, pre-hardened steel and other material hole processing.

 

Raw Material GU25UF
WC 88%
Co 12%
TRS >4300N/mm2
Hardness >92HRA
A.O.L 50mm-90mm
Grain size 0.4 μm
Upto HRC60
Flutes No 3/4F
Suitable for Aluminum,plastic and other materials

 

Standard Sizes

UN 60° Inner Thread Mill Cutter for Aluminum
Pitch (TPI) UNC UNF UNEF Shank Dia. Edge Dia. No. of Flutes Flute Length Overall Length Bottom Hole Dia.
36   No.8-36   4 3 3 8.5 50 3.5
32   No.10-32 No.12-3/8-32 4 3.5 3 11.1 50 4
28   No.12-28,1/4-28 7/16,1/2-28 4 4 3 11.8 50 4.6
28   1/4-28 7/16,1/2-28 6 5 3 12.7 57 5.5
28     7/16,1/2-28 10 9.2 4 22.7 75 10.2
24 No.10-24 5/16,3/8-24 9/16,11/16-24 4 3.2 3 10.6 50 3.8
24 No.12-24 5/16,3/8-24 9/16,11/16-24 4 4 3 11.6 50 4.5
24   5/16,3/8-24 9/16,11/16-24 6 6 3 15.9 57 6.8
24   3/8-24 9/16,11/16-24 8 7.8 3 19.1 60 8.5
24     9/16,11/16-24 12 11.9 4 28.6 75 13.2
20 1/4-20 7/16,1/2-20 3/4,1-20 4 4 3 12.7 50 5.2
20   7/16,1/2-20 3/4,1-20 10 9 4 22.9 75 9.8
20   1/2-20 3/4,1-20 10 10 4 25.4 75 11.5
20     3/4,1-20 12 12 4 38.1 75 17.8
18 5/16-18 9/16 11/16,1-11/16-18 6 5.8 3 16.9 57 6.5
18   9/16,5/8-18 11/16,1-11/16-18 10 10 4 29.6 75 12.8
16 3/8-16 3/4-16   8 7.6 3 19.1 60 8
16   3/4-16   12 12 4 28 75 17.5
14 7/16-14 7/8-14   8 8 3 20 60 9.3
14   7/8-14   16 16 4 39.9 90 20.5
13 1/2-13     8 8 3 20 60 10.8
12 9/16-12 1"1-1/2-12   10 10 4 28 75 12.3
12   1"1-1/2-12   16 16 4 40 90 23.5
11 5/8-11     12 12 4 30 75 13.5
10 3/4-10     12 12 4 30 75 16.5
9 7/8-9     16 16 4 38 90 19.5
8 1-8     16 16 4 40 90 22

 

UN 60° Outer Thread Mill Cutter for Aluminum
Pitch (TPI) UNC UNF Shank Dia. Edge Dia. No. of Flutes Flute Length Overall Length
32 No.8-32   6 6 3 11.91 50
28   No.12-28 6 6 3 12.7 50
24 No.12-24   6 6 3 12.7 50
20 1/4-20   6 6 3 15.4 50
18 5/16-18   8 8 3 16.93 60
16 3/8-16   8 8 3 19.05 60
12 9/16-12   12 12 4 29.6 75

 

M ISO Standard 60°Inner Thread Mill Cutter for Steel
Pitch (mm) M Coarse Thread M Fine Thread Shank Dia. Edge Dia. No. of Flutes Flute Length Overall Length Bottom Hole Dia.
0.5 M3*0.5   4 2.3 3 6 50 2.5
0.5   M6*0.5 4 4 3 10 50 5.5
0.5   M8-M12*0.5 6 6 3 13 50 7.5
0.6 M3.5*0.6   4 2.7 3 7 50 2.9
0.7 M4*0.7   4 3 3 8 50 3.3
0.75 M4.5*0.75   4 3.4 3 9 50 3.75
0.75   M10-M12*0.75 8 8 3 20 50 9.25
0.8 M5*0.8   4 4 3 10 50 4.2
1 M6*1.0   6 4.8 3 12 57 5.0
1   M8*1.0 6 6 3 16 57 7.0
1   M10*1.0 8 8 3 20 60 9.0
1   M12*1.0 10 10 4 22 75 11.0
1   M16*1.0 12 12 4 22 75 15.0
1   M20-M48*1.0 16 16 4 30 90 19.0
1.25 M8*1.25   6 6 3 16 57 6.75
1.25   M12-M14*1.25 10 10 4 25 75 10.75
1.5 M10*1.5   8 8 3 20 60 8.5
1.5   M12-M20*1.5 10 10 4 28 75 10.5
1.5   M14-M24*1.5 12 12 4 28 75 12.5
1.5   M20-M48*1.5 16 16 4 30 90 18.5
1.75 M12*1.75   10 9.8 4 30 75 10.25
2 M14*2.0 M15-M16*2.0 10 10 4 30 75 12.0
2 M16*2.0 M17-M20*2.0 12 12 4 30 75 14.0
2   M20-M80*2.0 16 16 4 40 90 18.0
2.5 M18-M20*2.5   14 14 4 36 85 15.5
2.5 M20-M80*2.5   16 16 4 40 90 17.5
3 M24*3.0   16 16 4 42 90 21.0
0.75   M6*0.75 6 4.8 3 12 60 5.25
0.75   M8*0.75 6 6 3 16 60 7.25
1.25   M10*1.25 8 8 3 20 60 8.75

 

M ISO Standard 60°Outer Thread Mill Cutter for Steel
Pitch (mm) M Coarse Thread Shank Dia. Edge Dia. No. of Flutes Flute Length Overall Length
0.5 M3*0.5 4 4 3 6 50
0.7 M4*0.7 4 4 3 8 50
0.75 M4.5*0.75 4 4 3 9 50
0.8 M5*0.8 4 4 3 10 50
1 M6*1.0 6 6 3 13 57
1.25 M8*1.25 6 6 3 16 57
1.5 M10*1.5 8 8 3 20 60
1.75 M12*1.75 10 10 4 28 75
2 M14*2.0 10 10 4 30 75
2.5 M18*2.5 14 14 4 36 85
3 M24*3.0 16 16 4 40 90

 

 

CNC Thread Milling vs Tapping
 
Let’s get one thing out of the way up front–Tapping is faster than CNC Thread Milling.
 
That being the case, you might wonder why anyone ever uses CNC Thread Milling? There are a number of advantages CNC Thread Milling has over Tapping that often make it the preferred choice including:
 
If you break a Threadmill, it won’t get stuck in the part. Removing broken taps is painful, especially if the tap is embedded in a part that’s already been machined at considerable expense. Thread milling is often preferred for expensive components and late stage machining for this reason.
 
The teeth of a threadmill are larger and stronger than taps because of the reduced need for chip clearance. This makes them less likely to break.
 
Thread Milling is better for harder materials because you can cut the material in smaller steps, and speeds and feeds can span a wider range than a tap, which is limited by the pitch of the thread being tapped. Their use in hard materials is another reason they’re almost always carbide.
 
Chip clearance is easier because a threadmill generates short, comma-shaped chips whereas taps can create long stringy chips that “bird nest”.
 
Thread Milling requires less horsepower than tapping, which may be an advantage for lighter-weight CNC machines.
The lower cutting forces of thread milling can be advantageous in long reach and thin wall applications where tool deflection and chatter are problems.
 
A single threadmill of the right type can be used to cut many thread sizes. A separate tap will be needed for each thread size. On parts with multiple threads, there can be considerable toolchange savings with thread milling. There is also savings in reducing the amount of tooling inventory that must be kept on hand for standard thread sizes.
 
You can thread mill odd-sized threads for proprietary applications.
A thread mill can be used to back chamfer the hole.
Thread mills have no need for special tension compression holders or tapping heads. This is an advantage on CNC Machines that lack rigid tapping capability.
Taps get increasingly expensive as size increases. At some point, threadmill cutters are cheaper than very large taps.
While coolant can be used, most manufacturers suggest dry machining is the first choice when thread milling. Exceptions would be stainless steel (reduces work hardening), aluminum (reduces chip welding), and cast iron (to keep the dust down). Otherwise, a good compressed air blast will be fine.
That’s quite a long list of advantages for carbide thread mills that may make them perfect for your application instead of tapping.

 

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