Opis
Opis:
- The TITANIUM cut has been especially developed for work on hard titanium materials (tensile strength > 500 N/mm²).
- It is characterized by an extremely high stock removal rate on this material group, which has very challenging stock removal properties.
- Tungsten carbide burrs with the TITANIUM cut impress with their smooth milling with considerably reduced vibration and less noise.
- Cylindrical burr with radius end according to DIN 8032.
- Combination of cylindrical and ball-shaped geometries.
- PFERD TOOLS ERGONOMICS recommends burrs with the TITANIUM cut as an innovative tool solution for comfort when working, with significantly reduced vibration and less noise.
- PFERD TOOLS EFFICIENCY recommends burrs with the TITANIUM cut for working for long periods with low levels of fatigue, whilst saving resources and achieving perfect results as quickly as possible.
Cecha szcz.:
- RPM from, hard non-ferrous metals: 13000 RPM
- RPM to, hard non-ferrous metals: 24000 RPM
- Cut: TITANIUM
- Dia. external, metric: 6 mm
- Dia. shank, metric: 3 mm
- Length, cut: 13 mm
- Length, total: 43 mm
Zaleta:
- Excellent stock removal rate and tool life due to innovative tooth geometry.
- Tangibly more aggressive, large chips and very good chip removal.
- Comfortable working with reduced vibration and less noise.
- The highly accurate concentricity enables impactfree working without creating chatter marks. This considerably reduces wear on the tool and tool drive.
Zastosowanie:
- Recommendations for use: Determine the rotational speed in each case depending on the titanium alloy you need to machine. Reduce the rotational speed if excessive flying sparks occur. Depending on the titanium alloy you are machining, flying sparks may not be entirely avoidable. To prevent vibrations, place the tools on powerful drives with an elastically supported spindle wherever possible. Observe the recommended rotational speeds. To ensure costeffective use of burrs, use a higher rotational speed and cutting speed. Use burrs with a shank diameter of 3 mm with drives with a power output of 75 to 300 watts.
- Applications: Cutting out holes; Deburring; Leveling; Milling; Milling out; Surface work; Work on weld seams
- Drive types: Flexible shaft drive; Tool machine; Automated centres; Straight grinder
Materiał:
- Materials that can be worked:
- Hard non-ferrous metal
- Titanium
- Titanium alloys
- Materials that can be worked: Hard non-ferrous metal; Titanium; Titanium alloys
- RPM from, hard non-ferrous metals: 13000 RPM
- RPM to, hard non-ferrous metals: 24000 RPM
- Cut: TITANIUM
- Dia. external, metric: 6 mm
- Dia. shank, metric: 3 mm
- Length, cut: 13 mm
- Length, total: 43 mm
Zaleta:
- Excellent stock removal rate and tool life due to innovative tooth geometry.
- Tangibly more aggressive, large chips and very good chip removal.
- Comfortable working with reduced vibration and less noise.
- The highly accurate concentricity enables impactfree working without creating chatter marks. This considerably reduces wear on the tool and tool drive.
Zastosowanie:
- Recommendations for use: Determine the rotational speed in each case depending on the titanium alloy you need to machine. Reduce the rotational speed if excessive flying sparks occur. Depending on the titanium alloy you are machining, flying sparks may not be entirely avoidable. To prevent vibrations, place the tools on powerful drives with an elastically supported spindle wherever possible. Observe the recommended rotational speeds. To ensure costeffective use of burrs, use a higher rotational speed and cutting speed. Use burrs with a shank diameter of 3 mm with drives with a power output of 75 to 300 watts.
- Applications: Cutting out holes; Deburring; Leveling; Milling; Milling out; Surface work; Work on weld seams
- Drive types: Flexible shaft drive; Tool machine; Automated centres; Straight grinder
Materiał:
- Materials that can be worked:
- Hard non-ferrous metal
- Titanium
- Titanium alloys
- Materials that can be worked: Hard non-ferrous metal; Titanium; Titanium alloys
- Recommendations for use: Determine the rotational speed in each case depending on the titanium alloy you need to machine. Reduce the rotational speed if excessive flying sparks occur. Depending on the titanium alloy you are machining, flying sparks may not be entirely avoidable. To prevent vibrations, place the tools on powerful drives with an elastically supported spindle wherever possible. Observe the recommended rotational speeds. To ensure costeffective use of burrs, use a higher rotational speed and cutting speed. Use burrs with a shank diameter of 3 mm with drives with a power output of 75 to 300 watts.
- Applications: Cutting out holes; Deburring; Leveling; Milling; Milling out; Surface work; Work on weld seams
- Drive types: Flexible shaft drive; Tool machine; Automated centres; Straight grinder
Materiał:
- Materials that can be worked:
- Hard non-ferrous metal
- Titanium
- Titanium alloys
- Materials that can be worked: Hard non-ferrous metal; Titanium; Titanium alloys
- Hard non-ferrous metal
- Titanium
- Titanium alloys
- Materials that can be worked: Hard non-ferrous metal; Titanium; Titanium alloys
