Description
Sandvik Coromant Carbide Corner Radius End Mills, Inch, TiAlN Finish, 50 Degree Helix, For Use With Aluminum/Aluminum Alloys, Cast Iron, Steel/Steel Alloys, Titanium/Titanium Alloys
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- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
- Solid carbide tools offer long tool life and faster cutting speeds than other substrates, but are more brittle and must be used with rigid toolholding systems
- Titanium aluminum nitride coatings become self-lubricating when used at very high speeds, making them ideal for cutting without coolant ("dry machining")
- Round shanks allow use with a wide variety of toolholding systems
- Shank Style: Cylindrical
- Geometry: H
- Straight -11° to -21° materials over 48 HRC Core diameter 75%
- Gauge Length: 1.583
- VFD
