HYDROK
Use and limits of use
III
IV
46
+0.63)∗ √ (
(0.27∗
=
0.5∗(0.67∗(1.9∗
Longitudinal turning
Surface turning / plunge-ma-
chining
If the workpiece is braced against a tailstock, it
is OK to continue calculating with 20% from the
computed
= ∗
∗ (
With reference to the principle defined at the start, this
means that the radial clamping force of the clamping head
chuck equates to at least the computed level of radial clamp-
ing force required
head chuck.
If this condition is not satisfied, the clamping head chuck
would not be suitable. It would not then be possible to per-
form this machining task.
When clamping and machining workpieces with bigger er-
rors in axial and face run-out, please note that the cutting
cross-section fluctuates greatly. Particular attention needs to
be paid to the resultant local increase in cutting force.
Determining the required clamping force for radial drill-
ing operations
With radial drilling operations directed at the center, radial
clamping force
an approach
= ∗ ∗ (1.6 ∗ (
whereby, although based upon components
= 0, a simplified form [just transverse force] can be used:
= ∗ ∗ 1.6 ∗
Determining of
drilling operations performed radially in relation to the
clamping device axis, in a similar way to Formula III:
(0.27∗
=
0.5∗(0.67∗(1.9∗
To calculate
« chapter.
=
= 0.45 ∗
Order hotline +49 7144.907-333
2
+ (
∗
+
∗
)
−4.5)+
∗
value.
2
∗
)
30
to resolve this use of the clamping
is also determined in accordance with
) +
+
)
can be calculated as follows for
+0.63)∗(
∗
+
∗
)
−4.5)+
∗
)
, see the »Further to Principle 4:
∗
∗
2
∗ )
)
=
2
=
= 0 and
≤