Insert shape selection, Entering angle – Sandvik Coromant Heat resistant super alloys User Manual

13

CNMG

DNMG

SNMG

CNMX

k

r

f

n

h

ex

≈ f

n

h

ex

h

ex

f

n

a

p

a

p

RCMT

h

ex

= f

n

x 0.71

Notch wear on the inserts is the major
problem when machining HRSA. The worst
notching occurs when the depth of cut is
greater than the nose radius, and the enter-
ing angle is 90°. (The depth of cut is the
influencing factor – with a depth of cut
smaller than the nose radius, the effective
entering angle is reduced even when the
angle on the insert itself is 90°).
By following some general rules the wear
can be controlled allowing more productive
grades to be used.
• Use as small entering angle as possible

(max 60°, min 25°)
– eg. SNMG, CNMX where

k

r

= 45°.

• Round inserts – use no greater entering

angle than 45° or 0.15 x diameter.

• Ramping – program a varying depth of cut

into the cutting operation. This spreads
the notching over the whole cutting edge,
giving longer tool life and more predict-
able wear. This method is used predomi-
nantly with ceramics, and mainly with
round inserts.

Insert shape selection

Entering angle –

k

r

With a standard C/D/SNMG style insert
for roughing, the entering angle is constant
regardless of depth of cut.

However, with round inserts the entering
angle varies from 0 to 90° depending upon
the ratio between depth of cut and diam-
eter.

Radial forces

High

Low

SNMG 45°

Round

Material: Inconel 718 (46 HRC) – a

p

2.0 mm, f

n

0.25 mm/rev, v

c

50 m/min – 5 min. time in cut

SNMG 75°

Notch

No notch

Effect of entering angle

Effect of entering angle on wear mechanism

h

ex

= chip thickness

CNMG 95°