Tungsten carbide bur with STEEL teeth
Tungsten carbide bur with STEEL teeth
MILBIT-TC-WRC-STEEL-D10-WL20MM
ZEBRA
Register now and access more than 125,000 products
- Up to 50 % higher cutting performance for machining steel and cast steel compared to burs with conventional double cut system
- Aggressive milling behaviour, large chips, high material removal rate
- Good handling
- Workpiece is protected due to significantly reduced heat development
- Manufactured in accordance with strict quality standards including full inspection of soldered connections
- Sustainable product packaging made of 100 % PCR (recycled plastic from household waste), 100 % recyclable and Cradle to Cradle Certified® Bronze
Wear appropriate protective equipment when using the sanding tip, such as eye protection, hearing protection and protective gloves. Please note the recommended rotation speed (n) and cutting speed (Vc) for the material being processed as well as the tool/material assignments in the overview tables. Before using the sanding tip, please ensure that the tip rotates properly and that the clamping function on the tool drive works correctly. Do not choose a clamping length that is too small. We recommend a minimum clamping length of approx. 2/3 of the shaft length. Discolouration may occur on the shaft due to the extremely high cutting performance. This discolouration is caused by the extremely high temperature that the tool reaches and does not pose a safety risk. Materials are generally processed in reverse rotation. Suitable tool drives: flexible shaft drives, straight grinders, robots, machine tools.
Datasheets(X)
Deburring, working contours, surface machining, weld seam processing, shaping, chamfering and rounding edges
Form | Cylindrical shape |
Head diameter x cutting edge length | 10 x 20 mm |
Length | 65 mm |
Shank diameter | 6 mm |
Material to be processed | Steel |
Quality | ZEBRA-Premium |
Teeth type | STEEL |
Cutting material | Carbide |
Surface | Plain |
Service life (points system) | 3 of 4 points |
Cutting efficiency (point system) | 4 of 4 points |
Surface quality/finish (points system) | 2 of 4 points |
Versatility (points system) | 1 of 4 points |
Guiding behaviour (point system) | 3 of 4 points |
Shank style | Cylindrical |
Cutting values | ||||||||||||
For dia. 6.0-10.0 | ||||||||||||
Material designation | Tensile strength | Dia. 6.0 | Dia. 8.0 | Dia. 10.0 | ||||||||
vc | n | f | n | f | n | f | ||||||
from | to | from | to | from | to | from | to | |||||
Steels | ||||||||||||
General structural steels | ≤ 850 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Unalloyed quenched and tempered steels | ≤ 850 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Low-alloy quenched and tempered steels | ≤ 850 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Unalloyed quenched and tempered steels | ≤ 1,000 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Low-alloy quenched and tempered steels | ≤ 1,000 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Alloyed quenched and tempered steels | ≤ 1,200 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Nitriding steels | ≤ 1,200 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Tool steels | ≤ 1,200 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
High-speed steels | ≤ 1,200 N/mm² | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Cast metals | ||||||||||||
Cast iron | ≤ 350 HB | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
Spheroidal graphite and malleable iron | ≤ 350 HB | 450 | 750 | 24000 | 40000 | 18 | 18000 | 30000 | 25 | 14000 | 24000 | 31,5 |
For dia. 12.0 | ||||||
Material designation | Tensile strength | Dia. 12.0 | ||||
vc | n | f | ||||
from | to | from | to | |||
Steels | ||||||
General structural steels | ≤ 850 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
Unalloyed quenched and tempered steels | ≤ 850 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
Low-alloy quenched and tempered steels | ≤ 850 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
Unalloyed quenched and tempered steels | ≤ 1,000 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
Low-alloy quenched and tempered steels | ≤ 1,000 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
Alloyed quenched and tempered steels | ≤ 1,200 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
Nitriding steels | ≤ 1,200 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
Tool steels | ≤ 1,200 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
High-speed steels | ≤ 1,200 N/mm² | 450 | 750 | 12000 | 20000 | 37 |
Cast metals | ||||||
Cast iron | ≤ 350 HB | 450 | 750 | 12000 | 20000 | 37 |
Spheroidal graphite and malleable iron | ≤ 350 HB | 450 | 750 | 12000 | 20000 | 37 |
Key |
vc = cutting speed [m/min] |
f = feed [mm/r] |
n = rotation speed [rpm] |
The suggested cutting values are reference values and must be adapted to the respective conditions. |