SGS® 63975 Ice-Carb® 140 High Performance Jobber Length Drill Bit, 10.8 mm Drill - Metric, 0.4251 in Drill - Decimal Inch, 140 deg Point, Micro Grain Solid Carbide, AlTiN Coated
SGS® 63975 Ice-Carb® 140 High Performance Jobber Length Drill Bit, 10.8 mm Drill - Metric, 0.4251 in Drill - Decimal Inch, 140 deg Point, Micro Grain Solid Carbide, AlTiN Coated
| Applicable Materials | : | Steel, Stainless Steel, Cast Iron, High Temperature Alloy, Titanium, Non-Ferrous Metals and Hardened Steel |
| Cutting Depth | : | 5XD |
| Cutting Direction | : | Right Hand |
| Cutting Edge Material | : | Micro Grain Solid Carbide |
| Drill Diameter Measurement System | : | Metric/Imperial |
| Drill Size - Decimal Inch | : | 0.4251 in |
| Drill Size - Metric | : | 10.8 mm |
| Finish | : | AlTiN Coated |
| Flute Length | : | 71 mm |
| Flute Type | : | Right Spiral |
| Material | : | Micro Grain Solid Carbide |
| Number of Flutes | : | 2 |
| Overall Length | : | 118 mm |
| Point Angle | : | 140 deg |
| Point Type | : | Split/Self-Centering |
| Series | : | Ice-Carb® 140 |
| Shank Size | : | 12 mm Dia x 45 mm L |
| Shank Type | : | Common |
| Through Coolant (Yes/No) | : | Yes |
| Type | : | High Performance |
The design of the Ice-Carb Series 140 was created to bring end users the ability to achieve higher performance results with higher production demands. The internal coolant design allows for better control of machining temperatures during these types of applications, while the geometry features provide effective and efficient chip creation and removal. The results of the Series 140 design are reduced cutting loads, increased operation parameters and enhanced tool life.
SGS® Jobber Length Drill Bit, High Performance, Series: Ice-Carb® 140, Metric/Imperial, 10.8 mm Drill - Metric, 0.4251 in Drill - Decimal Inch, 118 mm Overall Length, 5XD Cutting Depth, 2 Flutes, Right Spiral Flute, 71 mm Flute Length, 12 mm Dia x 45 mm L Shank, Common Shank, 140 deg Point, Split/Self-Centering Point, Right Hand Cutting Direction, Micro Grain Solid Carbide Cutting Edge, Yes Through Coolant, Micro Grain Solid Carbide, AlTiN Coated, Applicable Materials: Steel, Stainless Steel, Cast Iron, High Temperature Alloy, Titanium, Non-Ferrous Metals and Hardened Steel
- Coolant through design promotes controlled and consistent operating temperatures improving coolant flow to the cut while maintaining strength, increases tool life at increased operating parameters
- High performance flute design optimized open fluting, improved surface finish through effective chip evacuation
- Polished Ti-NAMITE-A coating reduces friction between the chip and tool preventing the impediment of chip flow
- Decreased machine loads associated with chip clogging
- Reduce friction reduces heat and abrasion wear
- High penetration 140 deg point geometry split point geometry for improved drill penetration and accuracy, cam relief drill point and self-centering design with high penetration capabilities
- Engineered cutting edges precisely ground with a curvature that allows efficient chip creation and control, controlled edge honing for longevity and negative corner position strengthens and protects