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Products with this attribute (22876 total)

Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for deep hole drilling with extremely efficient chip evacuation, without the need for frequent drill withdrawal. A heavy web and parabolic flute shape provide increased stability enabling drilling of accurate straight holes up to 5xD. 40 Degree helix angle 130 Degree point HSCO High Speed Cobalt TiAlN coated
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for drilling abrasive and nonferrous materials such as castings, hard rubber, and copper alloys. They are NOT recommended for drilling steel or other ferrous materials. Jobber length 118 Degree point High Speed Steel bodies
Designed for high-speed tapping applications. Developed to withstand the high stress and high heat associated with high-speed CNC production or conventional tapping. Features a unique free-cutting design with a special tempering and geometry which contributes to extra tool life., Used in general machine tapping applications for mild carbon steels such as 1018, 1010, 1035, 1045, 1050 and 1065, Up to 25 HHRC, 4.5 Pitch lead, Designed for through holes
Designed for large chamfers and countersinking 1\
Designed for large chamfers and countersinking 1\
Designed for milling small precision components in a variety of materials.
Designed for milling small precision components in a variety of materials.
Designed for milling small precision components in a variety of materials.
Designed for milling small precision components in a variety of materials.
Designed for milling small precision components in a variety of materials.
Designed for milling small precision components in a variety of materials.
Designed for milling small precision components in a variety of materials.
Designed for milling small precision components in a variety of materials.
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed for use on all CNC Turning Machines Elongated slot For use with drills, boring bars, reamers, etc. Precision ground throughout
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed specially for drilling hardened ferrous materials in the range of 45 to 65 HRC. Negative angle cutting edge for extra strength drilling hardened steel. Produces reamer like hole size and finish. Can be used for coring out pre-existing holes.
Designed to hold pipe and hollow work. Pipe head can be used as an all-round centre for light work. Two matched angular contact bearings preloaded at the factory. This achieves good thrust and radial capacities. Bearings are protected by a combination steel shield and neoprene seal. Accuracy: ?0.0001\
Designed to hold pipe and hollow work. Pipe head can be used as an all-round centre for light work. Two matched angular contact bearings preloaded at the factory. This achieves good thrust and radial capacities. Bearings are protected by a combination steel shield and neoprene seal. Accuracy: ?0.0001\
Designed to hold pipe and hollow work. Pipe head can be used as an all-round centre for light work. Two matched angular contact bearings preloaded at the factory. This achieves good thrust and radial capacities. Bearings are protected by a combination steel shield and neoprene seal. Accuracy: ?0.0001\
Dial Scale Protractor Head For Combination Square Sets Asimeto Hardened cast finished in baked enamel with exception of measurement faces 15mm (0.591\
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Distinguished cutting performance by S type edge and optimal design. High accuracy in finish machining by the cutting edge designed after Solid Ball End Mill. Simple assembly and hard clamping with two screws
Dk33-006 Univ. Angle Block Set Sowa Part #230-867
Dk35-001 1-2-3 Blocks Sowa Part #230-870
Double clamp set ~ one handle can simultaneously operate two moveable jaws and clamps 2 workpieces of same or different size or one large workpiece This model can increase efficiency and productivity of CNC machines The movable jaw ANTI-LIFT mechanism provides alignment to workpiece without jaw lift There are 6 kinds of clamping ways to meet workpieces of different shapes and sizes The whole body is precisely ground and height tolerance is within ? 0.025mm (?0.001\
Double clamp set ~ one handle can simultaneously operate two moveable jaws and clamps 2 workpieces of same or different size or one large workpiece This model can increase efficiency and productivity of CNC machines The movable jaw ANTI-LIFT mechanism provides alignment to workpiece without jaw lift There are 6 kinds of clamping ways to meet workpieces of different shapes and sizes The whole body is precisely ground and height tolerance is within ? 0.025mm (?0.001\