45045-TiN

CGS Tool EF-5 Tornado Series Finishing End Mills

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$999.99
SKU:
107789
Condition:
New
Shipping:
Calculated at Checkout
DIA:
1
SHANK:
1
LOC:
1-1/4
OAL:
3
FLUTES:
5 Flute
END STYLE:
Square End
COATING:
TiN
Radius:
No

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Product Overview

Engineered for high-performance finish milling and those precision machining kinds of jobs, the 45045-TiN 5-flute square end mill is made to deliver a better surface finish and handle extreme feed rates, especially while finishing. In the 45000 Series Super Finisher line, this tool brings together an advanced cutting geometry with premium solid carbide construction so you get steady accuracy, higher productivity, and reliable surface quality too.
The TiN, short for Titanium Nitride, coating boosts wear resistance, helps cut down friction, and extends tool life, so it can be a solid go-to in general-purpose and production machining setups, even when things are busy. Also, the 45° high-helix geometry kind of encourages efficient chip evacuation, reduces vibration, and keeps the cutting action smooth and stable across a pretty broad range of work materials.

Tool Specifications:

  • Diameter: 1"
  • Shank Diameter: 1"
  • Length of Cut: 1-1/4"
  • Overall Length: 3"
  • Flutes: 5
  • Style: Square End
  • Coating: TiN
  • Material: Solid Carbide
  • Helix Angle: 45°
  • Configuration: Single End
  • Series: 45000 Series Super Finisher
  • Part Number: 45045-TiN

Key Performance Features:

  • Ideal for finish milling, side milling, contouring, profiling, and high-feed finishing operations.
  • Supports applications requiring superior surface quality and dimensional accuracy.
  • Recommended for machining steels, stainless steels, cast iron, titanium, alloys, Inconel®, and select non-ferrous materials.
  • 5-flute design helps deliver stable and consistent cutting performance.
  • 45° high-helix geometry supports efficient chip evacuation.
  • Helps improve productivity in precision CNC machining environments.
  • A strong choice for applications where finishing quality, accuracy, and machining stability are important.