Description:
Cut 3 PLUS is cross cut and especially well-suited to machining of cast iron, steel, stainless steel (INOX), nickel-based alloys and titanium alloys. It is characterized by its high stock removal rate. Tungsten carbide burrs for general applications are suitable for fine and coarse stock removal on the key materials used in industrial manufacturing. They provide a good stock removal rate and are not specific to a particular material. Cylindrical burr according to DIN 8032 with cut conforming to DIN 8033. Tungsten carbide burrs with a long shank are ideal for efficiently machining small, hard-to-reach areas of components. They can be shortened if required. This version has a long steel shank.
Feature:
- RPM to, grey cast iron, white cast iron: 15000 RPM
- RPM to, soft non-ferrous metals: 15000 RPM
- RPM to, steels up to 1,200 N/mm²: 15000 RPM
- Cut: 3 PLUS
- Dia. external, metric: 6 mm
- Dia. shank, metric: 6 mm
- Length, cut: 16 mm
- Length, total: 172 mm
Advantage:
- Good stock removal rate through optimum matching of tungsten carbide, geometry, cut and available coating.
- Long tool life.
- The highly accurate concentricity enables impactfree working without creating chatter marks. This considerably reduces wear on the tool and tool drive.
- High surface quality.
Application:
- Recommendations for use: To ensure costeffective use of burrs, use a higher rotational speed and cutting speed. Use burrs with a shank diameter of 6 mm with drives with a power output from 300 watts.
- Applications: Cutting out holes; Deburring; Leveling; Milling; Milling out; Surface work; Work on weld seams
- Drive types: Flexible shaft drive; Tool machine; Robot; Stationary machines; Straight grinder
Material:
- Materials that can be worked:
- Annealed cast iron
- Black annealed cast iron (GTS, GJMB)
- Case-hardened steels
- Cast iron
- Cast steel
- Cobalt-based alloys
- Grey/nodular cast iron (GG/GJL, GGG/GJS)
- Hard aluminium alloys
- Hardened, heat-treated steels over 1.200 N/mm² (< 38 HRC)
- High-temperature-resistant materials
- Nickel-based alloys (e.g. Inconell and Hastelloy)
- Stainless steel (INOX)
- Steel
- Steel, cast steel
- Steels up to 1,200 N/mm² (< 38 HRC)
- Steels over 700 N/mm² (> 220 HB)
- Steels up to 700 N/mm² (< 220 HB)
- Tool steels
- White annealed cast iron (GTW, GJMW)
- Materials that can be worked: Annealed cast iron; Black annealed cast iron (GTS, GJMB); Case-hardened steels; Cast iron; Cast steel; Cobalt-based alloys; Grey/nodular cast iron (GG/GJL, GGG/GJS); Hard aluminium alloys; Hardened, heat-treated steels over 1.200 N/mm² (< 38 HRC); High-temperature-resistant materials; Nickel-based alloys (e.g. Inconell and Hastelloy); Stainless steel (INOX); Steel; Steel, cast steel; Steels up to 1,200 N/mm² (< 38 HRC); Steels over 700 N/mm² (> 220 HB); Steels up to 700 N/mm² (< 220 HB); Tool steels; White annealed cast iron (GTW, GJMW)
Note:
- For safety reasons, the maximum rotational speeds with contact with the workpiece require a reduction in the recommended speed of tungsten carbide burrs with standard shanks. Observe the product information included.
- When working with long shank lengths, it is crucial that the tool is in contact with the workpiece (or inserted in the bore or slot to be machined) before the drive system is turned on. As a rule, the tool must remain in contact with the workpiece for as long as the machine is running. Failure to observe this procedure may result in burr failure (bending) and hence an increased risk of accidents. If continuous contact between the tool and the workpiece is not guaranteed during use, the maximum idling speeds must not be exceeded.
- Not suitable for robotic or stationary applications. Risk of bending. Use only rigid clamping systems/drives.