Guhring
Guhring 9007680107200 RT150GG/768 High Penetration Web Thinned Straight Flute Drill Bit, 27/64 in Drill - Fraction, 0.4219 in Drill - Decimal Inch, 4XD D Cutting, 2 Flutes, Carbide
768010.72
MFG #: 9007680107200
$298.74
/ EA
Estimated Delivery 7 to 10 Business Days
- Manufacturer: Guhring
- Type: High Penetration Web Thinned
- Series: RT150GG/768
- Drill Diameter Measurement System: Imperial
- Drill Size - Fraction: 27/64
- Drill Size - Decimal Inch: 0.4219
- Overall Length: 118
- Cutting Depth: 4XD
- Number of Flutes: 2
- Flute Type: Straight
- Flute Length: 71
- Shank Size: 12
- Shank Type: Straight
- Point Angle: 120
- Point Type: Standard
- Cutting Direction: Right Hand
- Cutting Edge Material: Carbide
- Applicable Materials: Aluminum, Alloy and Cast Iron
- Drilling Application: Hydraulic Chuck, Accurate Alignment Tool Holder and Powerful Machine Applications
- Through Coolant (Yes/No): Yes
- Material: Carbide
- Finish: Bright
- Brand: Guhring
Guhring Straight Flute Drill Bit, High Penetration Web Thinned, Series: RT150GG/768, Imperial, 27/64 in Drill - Fraction, 0.4219 in Drill - Decimal Inch, 118 mm Overall Length, 4XD Cutting Depth, 2 Flutes, Straight Flute, 71 mm Flute Length, 12 mm Shank, Straight Shank, 120 deg Point, Standard Point, Right Hand Cutting Direction, Carbide Cutting Edge, Applicable Materials: Aluminum, Alloy and Cast Iron, Hydraulic Chuck, Accurate Alignment Tool Holder and Powerful Machine Applications, Yes Through Coolant, Carbide, Bright
- Very good self-centering characteristics
- Very good self-centering characteristics
- High productivity
- High cutting rates
- Close diameter tolerances
- Very good surface quality of hole
- Very good surface quality of hole
- Observe optimal coolant pressure
- Observe optimal coolant pressure
Very good self-centering characteristics
Very good self-centering characteristics
High productivity
High cutting rates
Close diameter tolerances
Very good surface quality of hole
Very good surface quality of hole
Observe optimal coolant pressure
Observe optimal coolant pressure