Machine tap assortment Stainless steel blind hole M3-M12, 14 pieces
Scrw tap cass. HSCo green rng through hole, 14 pcs
MATAP-SORT-GRNDHO-HSCO-GREEN-(M3-M12)
ZEBRA
Register now and access more than 125,000 products
Twist drill
- Large chipping space and small core for fast drilling with perfect chip removal
- Very precise point geometry for accurate drill holes, ideal for core drill holes
Machine tap
- Tool geometry precisely tailored to stainless steel with increased clearance angle
- Extra homogeneous cutting edge rounding for a high process reliability and longer service life compared to comparable machine taps
- Sufficient coolant and lubricant must be added for drilling processes and when cutting threads.
- For tool/material assignments, see the overview tables
- For further information, please refer to the individual products.
Datasheets(X)
Number of pieces in assortment/set | 14 PCS |
Material to be processed | Steel, Stainless steel |
Quality | ZEBRA-Premium |
Hole type | Blind hole ≤ 2.5xD |
Cutting material | HSCo |
Surface | Plain |
Suitable for machine type | Milling/drill center, Pedestal drilling machine |
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. |
For M20 | ||||||
Material designation | Tensile strength | M20 | ||||
vc | n | f | ||||
from | to | from | to | |||
Steels | ||||||
General structural steels | < 850 N/mm² | 6 | 8 | 95 | 127 | 2,50 |
Unalloyed quenched and tempered steels | < 850 N/mm² | 6 | 8 | 95 | 127 | 2,50 |
Low-alloy quenched and tempered steels | < 850 N/mm² | 6 | 8 | 95 | 127 | 2,50 |
Unalloyed quenched and tempered steels | < 1,000 N/mm² | 4 | 6 | 64 | 95 | 2,50 |
Low-alloy quenched and tempered steels | < 1,000 N/mm² | 4 | 6 | 64 | 95 | 2,50 |
Alloyed quenched and tempered steels | < 1,200 N/mm² | 4 | 6 | 64 | 95 | 2,50 |
Nitriding steels | < 1,200 N/mm² | 4 | 6 | 64 | 95 | 2,50 |
Tool steels | < 1,200 N/mm² | 4 | 6 | 64 | 95 | 2,50 |
High-speed steels | < 1,200 N/mm² | 4 | 6 | 64 | 95 | 2,50 |
Stainless steels | ||||||
Stainless steels | < 850 N/mm² | 4 | 6 | 64 | 95 | 2,50 |
For M3-M5 | ||||||||||||
Material designation | Tensile strength | M3 | M4 | M5 | ||||||||
vc | n | f | n | f | n | f | ||||||
from | to | from | to | from | to | from | to | |||||
Steels | ||||||||||||
General structural steels | < 850 N/mm² | 6 | 8 | 637 | 849 | 0,50 | 477 | 637 | 0,70 | 382 | 509 | 0,80 |
Unalloyed quenched and tempered steels | < 850 N/mm² | 6 | 8 | 637 | 849 | 0,50 | 477 | 637 | 0,70 | 382 | 509 | 0,80 |
Low-alloy quenched and tempered steels | < 850 N/mm² | 6 | 8 | 637 | 849 | 0,50 | 477 | 637 | 0,70 | 382 | 509 | 0,80 |
Unalloyed quenched and tempered steels | < 1,000 N/mm² | 4 | 6 | 424 | 637 | 0,50 | 318 | 477 | 0,70 | 255 | 382 | 0,80 |
Low-alloy quenched and tempered steels | < 1,000 N/mm² | 4 | 6 | 424 | 637 | 0,50 | 318 | 477 | 0,70 | 255 | 382 | 0,80 |
Alloyed quenched and tempered steels | < 1,200 N/mm² | 4 | 6 | 424 | 637 | 0,50 | 318 | 477 | 0,70 | 255 | 382 | 0,80 |
Nitriding steels | < 1,200 N/mm² | 4 | 6 | 424 | 637 | 0,50 | 318 | 477 | 0,70 | 255 | 382 | 0,80 |
Tool steels | < 1,200 N/mm² | 4 | 6 | 424 | 637 | 0,50 | 318 | 477 | 0,70 | 255 | 382 | 0,80 |
High-speed steels | < 1,200 N/mm² | 4 | 6 | 424 | 637 | 0,50 | 318 | 477 | 0,70 | 255 | 382 | 0,80 |
Stainless steels | ||||||||||||
Stainless steels | < 850 N/mm² | 4 | 6 | 424 | 637 | 0,50 | 318 | 477 | 0,70 | 255 | 382 | 0,80 |
For M12-M16 | ||||||||||||
Material designation | Tensile strength | M12 | M14 | M16 | ||||||||
vc | n | f | n | f | n | f | ||||||
from | to | from | to | from | to | from | to | |||||
Steels | ||||||||||||
General structural steels | < 850 N/mm² | 6 | 8 | 159 | 212 | 1,75 | 136 | 182 | 2,00 | 119 | 159 | 2,00 |
Unalloyed quenched and tempered steels | < 850 N/mm² | 6 | 8 | 159 | 212 | 1,75 | 136 | 182 | 2,00 | 119 | 159 | 2,00 |
Low-alloy quenched and tempered steels | < 850 N/mm² | 6 | 8 | 159 | 212 | 1,75 | 136 | 182 | 2,00 | 119 | 159 | 2,00 |
Unalloyed quenched and tempered steels | < 1,000 N/mm² | 4 | 6 | 106 | 159 | 1,75 | 91 | 136 | 2,00 | 80 | 119 | 2,00 |
Low-alloy quenched and tempered steels | < 1,000 N/mm² | 4 | 6 | 106 | 159 | 1,75 | 91 | 136 | 2,00 | 80 | 119 | 2,00 |
Alloyed quenched and tempered steels | < 1,200 N/mm² | 4 | 6 | 106 | 159 | 1,75 | 91 | 136 | 2,00 | 80 | 119 | 2,00 |
Nitriding steels | < 1,200 N/mm² | 4 | 6 | 106 | 159 | 1,75 | 91 | 136 | 2,00 | 80 | 119 | 2,00 |
Tool steels | < 1,200 N/mm² | 4 | 6 | 106 | 159 | 1,75 | 91 | 136 | 2,00 | 80 | 119 | 2,00 |
High-speed steels | < 1,200 N/mm² | 4 | 6 | 106 | 159 | 1,75 | 91 | 136 | 2,00 | 80 | 119 | 2,00 |
Stainless steels | ||||||||||||
Stainless steels | < 850 N/mm² | 4 | 6 | 106 | 159 | 1,75 | 91 | 136 | 2,00 | 80 | 119 | 2,00 |
For M6-M10 | ||||||||||||
Material designation | Tensile strength | M6 | M8 | M10 | ||||||||
vc | n | f | n | f | n | f | ||||||
from | to | from | to | from | to | from | to | |||||
Steels | ||||||||||||
General structural steels | < 850 N/mm² | 6 | 8 | 318 | 424 | 1,00 | 239 | 318 | 1,25 | 191 | 255 | 1,50 |
Unalloyed quenched and tempered steels | < 850 N/mm² | 6 | 8 | 318 | 424 | 1,00 | 239 | 318 | 1,25 | 191 | 255 | 1,50 |
Low-alloy quenched and tempered steels | < 850 N/mm² | 6 | 8 | 318 | 424 | 1,00 | 239 | 318 | 1,25 | 191 | 255 | 1,50 |
Unalloyed quenched and tempered steels | < 1,000 N/mm² | 4 | 6 | 212 | 318 | 1,00 | 159 | 239 | 1,25 | 127 | 191 | 1,50 |
Low-alloy quenched and tempered steels | < 1,000 N/mm² | 4 | 6 | 212 | 318 | 1,00 | 159 | 239 | 1,25 | 127 | 191 | 1,50 |
Alloyed quenched and tempered steels | < 1,200 N/mm² | 4 | 6 | 212 | 318 | 1,00 | 159 | 239 | 1,25 | 127 | 191 | 1,50 |
Nitriding steels | < 1,200 N/mm² | 4 | 6 | 212 | 318 | 1,00 | 159 | 239 | 1,25 | 127 | 191 | 1,50 |
Tool steels | < 1,200 N/mm² | 4 | 6 | 212 | 318 | 1,00 | 159 | 239 | 1,25 | 127 | 191 | 1,50 |
High-speed steels | < 1,200 N/mm² | 4 | 6 | 212 | 318 | 1,00 | 159 | 239 | 1,25 | 127 | 191 | 1,50 |
Stainless steels | ||||||||||||
Stainless steels | < 850 N/mm² | 4 | 6 | 212 | 318 | 1,00 | 159 | 239 | 1,25 | 127 | 191 | 1,50 |
DRL-TWST-MET-DIN338-HSCO-OX-D2,5
ZEBRADRL-TWST-MET-DIN338-HSCO-OX-D3,3
ZEBRADRL-TWST-MET-DIN338-HSCO-OX-D4,2
ZEBRADRL-TWST-MET-DIN338-HSCO-OX-D5,0
ZEBRADRL-TWST-MET-DIN338-HSCO-OX-D6,8
ZEBRADRL-TWST-MET-DIN338-HSCO-OX-D8,5
ZEBRADRL-TWST-MET-DIN338-HSCO-OX-D10,2
ZEBRAMATAP-BLIHO-HSCO-DIN371-GREEN-M10
ZEBRAMATAP-BLIHO-HSCO-DIN376-GREEN-M12
ZEBRAMATAP-BLIHO-HSCO-DIN371-GREEN-M3
ZEBRAMATAP-BLIHO-HSCO-DIN371-GREEN-M4
ZEBRAMATAP-BLIHO-HSCO-DIN371-GREEN-M5
ZEBRAMATAP-BLIHO-HSCO-DIN371-GREEN-M6
ZEBRAMATAP-BLIHO-HSCO-DIN371-GREEN-M8
ZEBRAJust leave the field empty if you don't know the packaging unit when directly entering the article number in the shopping basket or when importing with Easy-/VarioScan. The packaging unit will be determined automatically.
VVVV = 4 digits for prefix number (please note that the first digit is currently always 0)
AAA = 3 digits for dimension part 1
BBB = 3 digits for dimension part 2
Example article number structures:
Example 1: Screw with dimensions of 4x10 mm:
VVVVAAABBB
00574 10 (2 spaces between the 4 and the 10)
Example 2: Screw with dimensions of 10x20 mm:
VVVVAAABBB
005710 20 (1 space between the 10 and the 20)
Example 3: Flat washer with an internal diameter of 6 mm:
VVVVAAABBB
04076
The displayed price is always in line with the displayed packaging, if the PU is 250 the price for 250 units, if the PU is 300 the price for 300 units.
Price with price key representation (PSL):
The price always applies to a quantity ruled through the price key:
Price for 1 unit
Price for 100 units
Price for 1000 units