End Mills: Roughing related categories
 | 2 Flute High Performance End Mills - 45°
- Solid submicron grain carbide end mill - center cutting
- High performance machining
- Rigid work holding, machine stability and part integrity are critical!
- Excellent choice for slotting
- Polished cylindrical O.D. margin reduces chatter
- Recommended for aluminum and titanium (AlumaStar® coating recommended)
- Sharp corners (Can be modified with a corner radius)
- Designed for spindle speeds between 5,000 - 10,000 RPM, 1% diameter for chip load
|
 | 2 Flute - 15° - Die Mold Cutter End Mills - X.CEED Coated
- Solid submicron grain carbide end mill - center cutting
- High performance machining in the die mold industry
- Rigid work holding, machine stability and part integrity are critical!
- Carbide tested and selected for specific application
- ≤5.0 (.1969′′) diameter have 5° taper to shank
- Recommended for high Rockwell materials
- Can be modified with a neck in 48 hours
- Radius tolerance +0.0000′′ -0.0005′′ (+0.0000 / -0.0127)
|
 | Square End Mills
- Down to .001′′ - 1/8′′ Shank x 1-1/2′′ Oal
- Length of Cut = 3 x Diameter
- Center Cutting
- Micro Grain Carbide
|
 | Ball End Mills
- Down to .005′′- 1/8′′ Shank x 1-1/2′′ Oal
- Length of Cut = 3 x Diameter
- Micro Grain Carbide
|
 | Corner Radius End Mills
- Down to .030′′ x .005′′R - 1/8′′ Shank x 1-1/2′′ Oal
- Corner Radius for Improved Strength
- 4 Flute
- Center Cutting
- Micro Grain Carbide
|
 | 2 Flute 45° Helix End Mills
- 2 Flute, High Helix Design Improves Results in Non-Ferrous Applications
- Down to .031′′ (1/32′′)
- Square + Ball
- 45° Helix for Faster Chip Removal and Better Finish
- Center Cutting
- Micro Grain Carbide
Benefits of High Helix Geometry:
High helix end mills are typically defined as possessing a helix greater than 30° (standard).
The helix angle determines the axial (along centerline) and radial (perpendicular to centerline) forces acted upon the mill as it removes material from the workpiece.
As the helix increases, the cutting edge length of engagement is lessened, resulting in an increased axial force component and a decreased radial force component.
Increased axial forces allow more effective chip evacuation and an improved finish on the workpiece.
Decreased radial forces reduce tool deflection and avoid tool breakage.
These features make high helix end mills suited for thin walled parts and other similarly demanding applications.
Coating
TiB2 - Titanium Diboride
ZrN - Zirconium Nitride
Application/Benefits
Primary benefit over other non-ferrous coatings is extremely low affinity to aluminum. Prevents build-up on cutting edge, chip packing and extends tool life. Recommended in Aluminum Alloys and Magnesium Alloys.
High hardness, lubricity and abrasion resistance. Improves performance over uncoated carbide in a wide variety of nonferrous materials.
Non-Ferrous Materials
Aluminum Alloys, Magnesium Alloys
Non-ferrous alloys such as Aluminum, Brass, Bronze, Copper |
 | Long Reach-Stub Flute Square End Mills
- Long Length Design for Deep Cavities
- Stub Flutes for Maximum Rigidity
- Reduced Neck Diameter to Avoid Heeling
- Length of Cut = 1-1/2′′ x Diameter
- 3 Flute
- Center Cutting
- Micro Grain Carbide
|
 | Long Reach-Stub Flute Ball End Mills
- Long Length Design for Deep Cavities
- Stub Flutes for Maximum Rigidity
- Reduced Neck Diameter to Avoid Heeling
- Length of Cut = 1-1/2′′ x Diameter
- 3 Flute
- Center Cutting
- Micro Grain Carbide
|
 | Long Flute Square End Mills
- Long Shank Design for Deep Cavities
- Long Shank and Long Flute Design
- Mills Deep Pockets
- Length of Cut = 5 x Diameter
|
 | Long Flute Ball End Mills
- Long Shank Design for Deep Cavities
- Long Shank and Long Flute Design
- Mills Deep Pockets
- Length of Cut = 5 x Diameter
- Micro Grain Carbide
|
 | Long Reach + Flute - Square End Mills
- Long Length Design for Deep Cavities
- Long Flutes for Deep Pocket Milling
- Reduced Neck Diameter to Avoid Heeling
- Length of Cut = 5 x Diameter
- 3 Flute
- Center Cutting
- Micro Grain Carbide
|
 | Long Reach + Flute - Ball End Mills
- Long Length Design for Deep Cavities
- Long Flutes for Deep Pocket Milling
- Reduced Neck Diameter to Avoid Heeling
- Length of Cut = 5 x Diameter
- 3 Flute
- Micro Grain Carbide
|
 | Tapered Square End Mills
- Down to .015′′ TIP x 0.5′′ Angle Per Side
- Stocked in 1/2° to 10° Tapers
- Length of Cut = 10 x End Diameter
- Long Length
- Design for Deep Cavity Machining
- 3 Flute
- Center Cutting
- Micro Grain Carbide
|
 | Long Reach Tapered End Mills
- Reduced Neck Diameter to Avoid Heeling
- Reduced Neck Diameter to Avoid Heeling and Improves Rigidity
- Solid Neck Diameter is 30% to 60% Larger than Core Diameter in Long Flute Design
- Stocked in 1/2° to 3° Tapers
- Length of Cut = 5 x End Diameter
- Overall Reach = 10 x End Diameter
- 3 Flute
- Micro Grain Carbide
|
 | Tapered Ball End Mills
- Down to .015′′
- Stocked in 1/2° to 3° Tapers
- Length of Cut = 10 x Ball Diameter
- Long Length Design for Deep Cavity Machining
- 3 Flute
- Micro Grain Carbide
|
| Ball End Mills - Metric
- Cut Material Up To 68Rc!
- For Finishing Hardened Steels 52Rc to 68Rc
- Up to 10 x Longer Tool Life as Compared to Carbide
- Complete the Entire Finishing Operation with One Tool and Achieve Superior Finishes
- Radius Tolerance +/- .005 mm
- 2 Straight Flute
- Reduced Neck
- Micro Grain Carbide with Solid Cubic Boron Nitride (CBN) Tip
|
 | Hard Milling - Corner Radius End Mills
Designed for Hardened Steels 45-65Rc
- Designed to Mill Hardened Tool, Die and Mold Steels 45Rc to 65Rc
- Reduced Neck Diameter to Avoid Heeling
- Ultrafine Grain Carbide with Increased Cobalt Content for Improved Edge Retention
- Latest Generation AlTiN Nano Coating Offers Superior Hardness and Heat Resistance
- Geometry Includes Stub Flute, Large Rigid Core Diameter and Eccentric Relief
- Increased Shank Diameter and Unique Transition Geometry Properly Distributes Tool Pressure to Maintain Strength and Stiffness
- Reduced Neck Diameter to Avoid Heeling
|
 | Hard Milling - Ball End Mills
- Designed for Hardened Steels 45-65 Rc
- Designed to Mill Hardened Tool, Die and Mold Steels 45Rc to 65Rc
- Stub Flute and Large Rigid Core
- Ultrafine Grain Carbide with Increased Cobalt Content for Improved Edge Retention
- Latest Generation AlTiN Nano Coating Offers Superior Hardness and Heat Resistance
- Geometry Includes Stub Flute, Large Rigid Core Diameter and Eccentric Relief
- Increased Shank Diameter and Unique Transition Geometry Properly Distributes Tool Pressure to Maintain Strength and Stiffness
- Reduced Neck Diameter to Avoid Heeling
|
 | Square End Mills
- Up to 50 x Improved Life Over Carbide!
- PCD Diamond Brazed on Carbide Body
- Center Cutting
- Recommended Work Piece Material: Aluminum, Copper, Brass, Bronze, Plastics, Graphite, Carbon, Green Carbide, Gold, Silver, Magnesium, Zinc, Green Ceramics
|
 | Ball End Mills
- Up to 50 x Improved Life Over Carbide!
- PCD Diamond Brazed on Carbide Body
- Center Cutting
- Recommended Work Piece Material: Aluminum, Copper, Brass, Bronze, Plastics, Graphite, Carbon, Green Carbide, Gold, Silver, Magnesium, Zinc, Green Ceramics
|
 | Square + Ball End Mills
- Down to 1/64′′
- True Crystalline CVD Diamond on Carbide Substrate
- Ideal for Machining Graphite and Composites, Green Carbide and Green Ceramics
- Maximum Abrasion Resistance Increases Tool Life Up to 50%
- Reduced Neck for Maximum Rigidity
- Stub Flutes
- 4 Flute
- Center Cutting
|
 | Reduced Shank End Mills
- Chuck At Any Depth
- Reduced Straight Shank Allows Any Chucking Depth
- Solid Carbide Construction for Maximum Rigidity
- Long Length Design for Deep Cavity Machining
- Corner Radius for Improved Strength
- Length of Cut 1-1/2 x Diameter
- 4 Flute
- Micro Grain Carbide
|
 | Reduced Shank Ball End Mills
- Chuck At Any Depth
- Reduced Straight Shank Allows Any Chucking Depth
- Solid Carbide Construction for Maximum Rigidity
- Long Length Design for Deep Cavity Machining
- Length of Cut 1-1/2 x Diameter
- 2 Flute
- Micro Grain Carbide
|
 | Concave Radius End Mills
- Down to 1/64′′ Plus Metrics
- Ground Form Relieved: Can Be Re-Ground Without Losing Radius
- 4 Flute
- Solid Micro Grain Carbide
|
 | 2 Flute Corner Rounding End Mills
- Down to .005′′
- Small Pilot Diameter Design for Miniature Holes and Narrow Slots
- Double Ended
- 2 Flute
- End Cutting
- Depth of Cut = Radius Plus .005′′
- Micro Grain Carbide
|
 | Flared - 2 Flute Corner Rounding End Mills
- 5° Flares At Shoulder and Pilot to Avoid Steps in Workpiece
- Small Pilot Diameter Design for Miniature Holes and Narrow Slots
- Double Ended
- 2 Flute
- End Cutting
- Depth of Cut = Radius Plus .005′′
- Micro Grain Carbide
|
 | Flared - 4 Flute Corner Rounding End Mills
- 5° Flares At Shoulder and Pilot to Avoid Steps in Workpiece
- Large Pilot Diameter Design Has Increased Strength and Requires Less Speed
- Double Ended
- 4 Flute
- End Cutting
- Depth of Cut = Radius Plus .005′′
|
|
Tell your suppliers you found them on ThomasNet
