BAER TriTap HSSE-VAP tap form B - M 6 x 1.0 - DIN 371
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BAER TriTap HSSE-VAP tap form B - M 6 x 1.0 - DIN 371
BAER HSSE-VAP TriTap taps
Our TriTap taps are the perfect solution for anyone who prioritises flexibility. Thanks to the special shank shape, tapping is also possible with a hand-held machine. And all of this, of course, in the proven BAER quality. Tapping works best with a stationary drill, a tapping machine or a CNC machine. In practice, however, it is often difficult or impossible to use these types of machine. The obvious solution is to clamp the tap in a hand-operated drill with a quick-action chuck. The problem with this is that the clamping jaws cannot grip the round shank securely and do not have the right mount for the square. As a result, the tool can quickly spin out. We address this problem with the innovative design of our new TriTap taps. The special feature lies in the shank. In addition to the usual square shank, we have integrated a trihedral shank. Three straight surfaces are ideally suited to being gripped and held by the three chuck jaws of a standard hand drill. In addition to its innovative design, the TriTap tap also scores points for its exceptional quality and long service life. The robust HSSE steel with cobalt alloy can also cope with demanding materials such as stainless steel. Vaporisation reduces friction, protects against corrosion and also ensures that cutting oil adheres better to the surface of the tool. And the oxidised surface also looks particularly elegant. This makes our TriTap taps truly universal tools that are suitable for a wide range of applications. Tapping with hand tapping machines presents a number of challenges. To achieve a clean result and prevent tool breakage, you should observe the following points:
- Hold the tool exactly perpendicular to the drill hole. Tools such as a square can be a valuable aid.
- Do not work at excessively high speeds, as you cannot control the feed rate as precisely in manual mode.
- For blind hole threads, take particular care not to touch the bottom of the hole with the tap.
TriTap taps are ideal for all tradesmen, DIY enthusiasts and fitters who want to remain flexible and mobile at work without compromising on quality.
Dimensions
| Diameter |
6 |
|---|---|
| Nominal diameter in inches |
0,236 |
| Nominal diameter in mm |
6 |
| Pitch |
1,0 |
| Pitch in mm |
1 |
| Dimension |
M 6 x 1,0 |
| Square |
4,9 mm |
Characteristics
| Product group |
Screw taps |
|---|---|
| Product type |
Machine taps |
| Thread standard |
M: Metric ISO standard thread according to DIN 13 |
| Tolerance |
ISO2/6H |
| Direction |
Right |
| Standard |
DIN 371 |
| Tensile strength at room temperature |
up to 1200 N/mm² | 38 HRC |
| Material |
HSSE VAP |
5 mm
Through hole up to 4 x D
Form B with spiral point
4-5 threads
Chips are removed downwards in the direction of cutting
External cooling and lubrication
HSSE VAP
up to 1200 N/mm² | 38 HRC
ISO2/6H
Applications
- Steels and steel alloys up to 1200 N/mm²
- Stainless steels up to 1000 N/mm²; stainless steels; stainless steels; VA steels, INOX, V2A, V4A
- Lamellar graphite cast iron (GG) and with spheroidal graphite (GGG) up to 1000 N/mm²; grey cast iron, nodular graphite cast iron
- Pure titanium and titanium alloys up to 900 N/mm²
- Pure nickel and nickel alloys up to 900 N/mm²
- All cast and wrought aluminium alloys
- Copper, copper alloys and brass (all chip lengths)
- for manual and machine use
Technical drawing
| D1 |
M 6 x 1,0 |
|---|---|
| D2 |
6 mm |
| L1 |
80 mm |
| L2 |
16 mm |
| Diameter |
6 |
| Square |
4,9 mm |
Application – Sample materials
| Stainless steels (ferritic, austenitic, martensitic) | Cutting speed vc in m/min | |
|---|---|---|
| 1.4104 | X14CrMoS17 | 5 - 12 |
| 1.4301 | X5CrNi18-10 (V2A) | 5 - 12 |
| 1.4571 | X6CrNiMoTi17-12-2 (V4A) | 5 - 12 |
| 1.4005 | X12CrS13 | 5 - 12 |
| Construction steels, case-hardening steels | Cutting speed vc in m/min | |
|---|---|---|
| 1.0050 | St50-2 | 6 - 15 |
| 1.0401 | C15 | 6 - 15 |
| 1.7147 | 20MnCr5 | 6 - 15 |
| 1.5919 | 15CrNi6 | 6 - 15 |
| Alloyed steels, quenched and tempered steels | Cutting speed vc in m/min | |
|---|---|---|
| 1.8515 | 31CrMo12 | 5 - 10 |
| 1.0503 | C45 | 6 - 15 |
| 1.7218 | 25CrMo4 | 6 - 15 |
| 1.6511 | 36CrNiMo4 | 6 - 15 |
| Copper alloys, brass (long-chipping) | Cutting speed vc in m/min | |
|---|---|---|
| E-Cu 57 | EN CW400A | 10 - 20 |
| CuZn37 | EN CW 508 L (Ms58) | 10 - 20 |
Cutting speed vc [m/min] = (Outer diameter * π * speed) / 1000
Rotation speed n [1/min] = (Cutting speed in m/min * 1000) / (Outer diameter * π)
Feedrate programming [mm/min] = speed * pitch
Please note that the above cutting speeds are indicative and must be adjusted depending on lubrication and actuation.
Further information
- M - Metric ISO thread DIN 13
- Designations, geometries and definitions on taps
- Thread tolerances of the internal thread
- Internal thread and core hole dimensions
- Tap Chamfer forms
- Comparison inch-mm
- Surface treatments on tapping tools
- Cutting speeds and lubrication/cooling
- Information about tapping
- Material table
Safety instructions
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