Niagara Cutter C230R-0.250-D3-R030.0-Z2 C230R Carbide Radius End Mill, TiAlN Finish, 2 Flutes, 1/4' Cutting Diameter, 1/4' Shank Diameter, 2-1/2' Overall Length, 3/4'
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Two flutes offer better chip-carrying capacity than end mills with more flutes, enhancing the tool\'s ability to remove materialCorner radius end mills have cutting edges with rounded corners to reduce chipping and provide longer tool lifeTitanium aluminum nitride (TiAlN) coating lubricates the end mill for high-temperature stability and abrasion resistance at high cutting speedsCarbide can run at higher speeds than high-speed steel, resisting abrasion and high cutting temperaturesCenter-cutting design allows the end mill to plunge into material like a drill bit while also performing conventional surface milling
상품설명
The Niagara Cutter C230R TiAlN-coated carbide corner radius end mill has two flutes and a 30-degree helix angle for general-purpose machining on a range of materials. Corner radius end mills have a square end with rounded corners on the cutting edges to reduce chipping and extend the life of the tool. The two flutes have better chip-carrying capacity than end mills with more flutes while offering additional support when the tool goes deep into the material in applications with a high depth of cut. The 30-degree helix angle supports general-purpose applications. It balances lower angles’ strong cutting edge for difficult-to-machine materials with higher angles’ increased cutting action. The TiAlN coating resists heat better than TiN and TiCN coatings, increasing tool life and performance. It also offers increased hardness for abrasion resistance and may reduce the need for lubricants based on the application. (TiAlN is suitable for a range of materials, but TiCN or uncoated end mills are recommended for machining aluminum.) The carbide substrate is harder than high-speed or cobalt steel, making it more wear resistant at high speeds and providing longer tool life. The center-cutting design has cutting teeth at the end of the tool, so it can be fed into the workpiece like a drill bit. Cutting diameter tolerance is +0.000” to -0.002”. The round shank accommodates a variety of holders. End mills are designed to remove material and create multi-dimensional shapes and profiles. They have cutting edges along the outside diameter and flutes that remove chips from the cutting area and allow cooling fluids to enter. If heat is not reduced effectively, the tool’s cutting edges will dull and additional material buildup can occur. The number of flutes can range from two to eight. Two-flute designs offer the most efficient chip removal, but more flutes provide a smoother finish. The shank is the end of the tool held in place by a tool holder or machine.
Two flutes offer better chip-carrying capacity than end mills with more flutes, enhancing the tool\'s ability to remove materialCorner radius end mills have cutting edges with rounded corners to reduce chipping and provide longer tool lifeTitanium aluminum nitride (TiAlN) coating lubricates the end mill for high-temperature stability and abrasion resistance at high cutting speedsCarbide can run at higher speeds than high-speed steel, resisting abrasion and high cutting temperaturesCenter-cutting design allows the end mill to plunge into material like a drill bit while also performing conventional surface milling
상품설명
The Niagara Cutter C230R TiAlN-coated carbide corner radius end mill has two flutes and a 30-degree helix angle for general-purpose machining on a range of materials. Corner radius end mills have a square end with rounded corners on the cutting edges to reduce chipping and extend the life of the tool. The two flutes have better chip-carrying capacity than end mills with more flutes while offering additional support when the tool goes deep into the material in applications with a high depth of cut. The 30-degree helix angle supports general-purpose applications. It balances lower angles’ strong cutting edge for difficult-to-machine materials with higher angles’ increased cutting action. The TiAlN coating resists heat better than TiN and TiCN coatings, increasing tool life and performance. It also offers increased hardness for abrasion resistance and may reduce the need for lubricants based on the application. (TiAlN is suitable for a range of materials, but TiCN or uncoated end mills are recommended for machining aluminum.) The carbide substrate is harder than high-speed or cobalt steel, making it more wear resistant at high speeds and providing longer tool life. The center-cutting design has cutting teeth at the end of the tool, so it can be fed into the workpiece like a drill bit. Cutting diameter tolerance is +0.000” to -0.002”. The round shank accommodates a variety of holders. End mills are designed to remove material and create multi-dimensional shapes and profiles. They have cutting edges along the outside diameter and flutes that remove chips from the cutting area and allow cooling fluids to enter. If heat is not reduced effectively, the tool’s cutting edges will dull and additional material buildup can occur. The number of flutes can range from two to eight. Two-flute designs offer the most efficient chip removal, but more flutes provide a smoother finish. The shank is the end of the tool held in place by a tool holder or machine.
2019-03-21 09:41:10
