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These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These Premium HSS drills can be used in a variety of applications. Their surface treatment increases abrasion resistance, which reduces the amount of chip welding and improves chip flow. 30 Degree helix angle 135 Degree split point

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling.

These TiAlN coated ball nose carbide end mills offer excellent performance and tool life in a variety of applications including contour milling.

These Typhoon end mills have the added reach and depth of cut required for longer reach applications in hardened materials.

These Typhoon end mills have the added reach and depth of cut required for longer reach applications in hardened materials.

These Typhoon end mills have the added reach and depth of cut required for longer reach applications in hardened materials.

Thin style, 1/8\

Thin style, 1/8\

Thin style, 1/8\

Thin style, 1/8\

Thin style, 1/8\

Thin style, 1/8\

Thin style, 1/8\

Thin style, 1/8\

Thin style, 1/8\

Thin style, 1/8\

This carbide aluminum end mill has been designed specially for milling Aluminum and all non-ferrous materials. The unique geometry permits much higher speed and feed rates without loading. Spindle and feed rates can be increased by fifty percent for greater productivity with excellent piece/part finishes

This carbide aluminum end mill has been designed specially for milling Aluminum and all non-ferrous materials. The unique geometry permits much higher speed and feed rates without loading. Spindle and feed rates can be increased by fifty percent for greater productivity with excellent piece/part finishes.

This Double End end mill has the same geometry and application design as our General Purpose Single End Mill. Four-flute configuration with center cutting permits plunging and milling on many ferrous and most non-ferrous materials, and offers lower chip-load for size control and finish. TiAlN coated for increased speed and feed capabilities and enhanced tool life

This Double End end mill has the same geometry and application design as our General Purpose Single End Mill. Four-flute configuration with center cutting permits plunging and milling on many ferrous and most non-ferrous materials, and offers lower chip-load for size control and finish. TiAlN coated for increased speed and feed capabilities and enhanced tool life

This Double End end mill has the same geometry and application design as our General Purpose Single End Mill. Four-flute configuration with center cutting permits plunging and milling on many ferrous and most non-ferrous materials, and offers lower chip-load for size control and finish. TiAlN coated for increased speed and feed capabilities and enhanced tool life

This Double End end mill has the same geometry and application design as our General Purpose Single End Mill. Four-flute configuration with center cutting permits plunging and milling on many ferrous and most non-ferrous materials, and offers lower chip-load for size control and finish. TiAlN coated for increased speed and feed capabilities and enhanced tool life

This fine pitch rougher is designed for milling harder metals and has updated geometry in the design of this tool for higher feed rates with no vibration or chatter and chip breakers to eliminate birdnesting

This fine pitch rougher is designed for milling harder metals and has updated geometry in the design of this tool for higher feed rates with no vibration or chatter and chip breakers to eliminate birdnesting

This fine pitch rougher is designed for milling harder metals and has updated geometry in the design of this tool for higher feed rates with no vibration or chatter and chip breakers to eliminate birdnesting

This fine pitch rougher is designed for milling harder metals and has updated geometry in the design of this tool for higher feed rates with no vibration or chatter and chip breakers to eliminate birdnesting

This fine pitch rougher is designed for milling harder metals and has updated geometry in the design of this tool for higher feed rates with no vibration or chatter and chip breakers to eliminate birdnesting

This fine pitch rougher is designed for milling harder metals and has updated geometry in the design of this tool for higher feed rates with no vibration or chatter and chip breakers to eliminate birdnesting

This HV Type Rotary Table is so designed as to permit machining operations at a higher dimension than that of RT Type Rotary tables The base can be used in a vertical position to enable the carrying out of centre work Worm gear 90:1

This HV Type Rotary Table is so designed as to permit machining operations at a higher dimension than that of RT Type Rotary tables The base can be used in a vertical position to enable the carrying out of centre work Worm gear 90:1

This HV Type Rotary Table is so designed as to permit machining operations at a higher dimension than that of RT Type Rotary tables The base can be used in a vertical position to enable the carrying out of centre work Worm gear 90:1

This HV Type Rotary Table is so designed as to permit machining operations at a higher dimension than that of RT Type Rotary tables The base can be used in a vertical position to enable the carrying out of centre work Worm gear 90:1

This HV Type Rotary Table is so designed as to permit machining operations at a higher dimension than that of RT Type Rotary tables The base can be used in a vertical position to enable the carrying out of centre work Worm gear 90:1

This HV Type Rotary Table is so designed as to permit machining operations at a higher dimension than that of RT Type Rotary tables The base can be used in a vertical position to enable the carrying out of centre work Worm gear 90:1

This HV Type Rotary Table is so designed as to permit machining operations at a higher dimension than that of RT Type Rotary tables The base can be used in a vertical position to enable the carrying out of centre work Worm gear 90:1

This index combines the advantages of the Simple Index with those of a worm-geared index. When mounted on a milling, boring or other machine tool it can carry out single-purpose indexing and indirect indexing using the worm-drive mechanism. Disengaging the worm drive the 24-notch master plate permits 2, 3, 4, 6, 8, 12 and 24 dividing. When the chuck is removed the unit can be used as a horizontal and vertical type rotary table. The operating handle to rotary table worm gear reduction ratio is 1:90. The operating handle collar is graduated in minutes, and readings down to ten seconds can be set on the vernier.

This index combines the advantages of the Simple Index with those of a worm-geared index. When mounted on a milling, boring or other machine tool it can carry out single-purpose indexing and indirect indexing using the worm-drive mechanism. Disengaging the worm drive the 24-notch master plate permits 2, 3, 4, 6, 8, 12 and 24 dividing. When the chuck is removed the unit can be used as a horizontal and vertical type rotary table. The operating handle to rotary table worm gear reduction ratio is 1:90. The operating handle collar is graduated in minutes, and readings down to ten seconds can be set on the vernier.

This range of Vee blocks is made from finely selected tool steel fully hardened to 55-60 HRC. Manufactured and numbered in matched pairs, each pair has two 90 Degree Vees of different capacities which are identical to the Vees of its matching block. The Vee's are ground central, parallel and square with the ends and sides.

This range of Vee blocks is made from finely selected tool steel fully hardened to 55-60 HRC. Manufactured and numbered in matched pairs, each pair has two 90 Degree Vees of different capacities which are identical to the Vees of its matching block. The Vee's are ground central, parallel and square with the ends and sides.

This range of Vee blocks is made from finely selected tool steel fully hardened to 55-60 HRC. Manufactured and numbered in matched pairs, each pair has two 90 Degree Vees of different capacities which are identical to the Vees of its matching block. The Vee's are ground central, parallel and square with the ends and sides.

This range of Vee blocks is made from finely selected tool steel fully hardened to 55-60 HRC. Manufactured and numbered in matched pairs, each pair has two 90 Degree Vees of different capacities which are identical to the Vees of its matching block. The Vee's are ground central, parallel and square with the ends and sides.

This series has added strength and stability with the same geometry of our standard length series. Stub end mills are specifically designed for shallow milling, contour milling and slotting