Sandvik Coromant Carbide Corner Radius End Mills, Metric, TiAlN Finish, Roughing Cut, 30 Degree Helix, For Use With Steel/Steel Alloys

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AZB0027SDZ8M
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Sandvik Coromant Carbide Corner Radius End Mills, Metric, TiAlN Finish, Roughing Cut, 30 Degree Helix, For Use With Steel/Steel Alloys
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
  • 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: Weldon
  • Geometry: G
  • Straight -3° to 3° materials between 35 and 58 HRC Core diameter 70%
  • Gauge Length: 1.26
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