General information milli ng cutters Code keys, shanks,
cutter geometries
and insert clamping system
..........................................................6-8
Square shoulder and slot milling cut ters
.....................................................................................................18-75
Helical milling cutters
.....................................................................................................76-120
Face milling cutters
.....................................................................................................121-191
Disc milling cutters
.....................................................................................................192-283
Minimaster® Plus
...................................................................................................421-458
Spot facing cutters
.......................................................................563-567
Intruduction SMG version 2
..........................................................673
SMG* Workpiece Materials – SMG*
.......................................................674-685
Declaration of conformi ty
.....................................................................................................686-688
* SMG = Seco Material Group
S q u
a r e
s h o
u
l d
e r a
n d
s l o
t m
i l l i n
g
H e
l i c
a l m
i l l i n
g
F a c
e m
i l l i n
g
D
i s c
m
i l l i n
g
P
l u n
g e m
i l l i n
g
C o p
y m
i l l i n
g
H
i g
h
f e e
d
m
i l l i n
g
M
i n
i m a
s t e
r
M
i s c
.
220.21-LO06 . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . 399
220.21-LP06 . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . 395
220.29-03 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 314
220.29-04 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 321
220.29-05 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 325
220.29-06 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 330
220.29-08 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 333
220.29-10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . 337-338
220.30 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . 180-181
220.30-12C . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 182
220.30-12CT . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . .183
220.30-12ST . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . 180-181
220.30-C . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . 182-183
220.43-03 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 165
220.43-04 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 166
220.43-05 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . 151-154
220.43-05C . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 153
220.43-05CG . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . 153
220.43-05CT . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . 154
220.43-06CT . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . 154
335.19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . 209-213
AD=Anti vibration material with ’through’ coolant
supply
G = Coarse pitch version for low power machines
T = Close pitch version for contouring operations
C = With adjustable cassettes
Right hand rotation
In milling Seco uses product specific designation systems, there is
no
ISO system available for cutters. See example below.
Code key for Turbo m illing cutter 217/220.69
Shank diameter
Cutter diameter
Tool chucks acc. to ISO 5414 DIN 1835
Ex.: R217.69-2525.0-12-3AN Ex.: R217.69-2525.3-12-3AN
Type 3S – Seco/Weldon® Type CV
Tool chucks acc. to ISO 5414 DIN 1835 ISO 7388 DIN 69871 Form A
ANSI-B5.50 JIS B6339
Ex.: R217.69-2532.3S-12-4AN Ex.: R215.59-CV50050072-12.3K
Type ISO-297/DIN 2080
Ex.: R215.59-50.080.077-12.4 C6-217.69-066-12-6AN
Type MAS BT
Clamping by S - screw Clamping by a wedge
The inserts are clamped by an inclined screw which holds the
insert in position in its seat.
The inserts are held in position by a wedge and a screw which
clamps the insert onto the seat.
(Example shows milling cutter with cassettes).
Centre lock clamping Clamping by spring action
The inserts are secured through a centre hole by
means of a screw which clamps the insert firmly against the
bottom and side of its seat.
The inserts are retained by a clamping/spring action
into a fixed insert seat
Minimaster clamping Minimaster Plus clamping
The insert is clamped in position by means of a finger-shaped
clamping screw which draws the insert into a cone
The insert is clamped in position
by a thread and fastened by a
fixed key or a torque wrench
Square T4
The inserts are secured through a centre hole by
means of a screw which clamps the insert firmly against the
bottom and side of its seat.
Nominal dimensions and tolerances on Seco
inserts may differ from the table below.
2. Side clearance angle
3 , 1
7 5
*
4 , 7
F 0,005 0,025 0,013 • • • • • • • • • •
G 0,025 0,13 0,025 • • • • • • • • • •
H 0,013 0,025 0,013 • • • • • • • • • •
U
0,13 0,13 0,08 • • • • 0,20 0,13 0,13 • 0,27 0,13 0,18 • • 0,38
0,13 0,25 • • •
Inserts-Metric series, Extract from ISO 1832—1991
5. Cutting edge length
A, B, K C, D, E, M, V H, O, P
L R S
09 = 9,52 mm
7. Insert with corner chamfer/nose radius
1st letter A = 45°
B = 5° G = 30°
C = 7° N = 0°
D = 15° P = 11°
00 = sharp
Insert geometries
Designation system The Seco designation system for milling inserts
has been developed to provide
the user with better guidance concerning the fields of application
for the various
insert geometries
Examples of different insert geometries for a speci fi c
insert type
Dif ficult machining
..AFTN-MD18 Negative and protected cutting edge
..AFTN-M14 Positive and protected cutting edge
..AFTN-ME11 Very positive and protected cutting edge
..AFN-M10 Positive and sharp cutting edge
..AFN-E08 Very positive and very sharp cutting edge
Insert grades
Cemented carbide is an alloy of tun gsten carbid e (WC) and cobalt
(Co). Cubic carbides lik e tantalum carbide (TaC), titanium carbi
de
(TiC) and niobium carbide (NbC) can also be added. Tungsten carbi
de is the main com ponent and giv es the hardness. Cobalt
is the binder phase and gives the toughness. Cubic carbides are
added in order to affect properties like hot hardness,
deformation
resistance and chemical wear resistance.
Most mod ern grades are coated with either CVD (Chemical Vapour
Deposition) or PVD (Physical Vapour Deposition) techn ique.
The coating improves the wear resistance of the grade.
CVD-coated grades are suitable for wear resistance in demanding
application s with h igh feed rates and intermediate to
high cutting speed.
PVD-coated grades are recommended for applications with low feed
rate where high edge toughness is
required. PVD-coated grades are suitable for applications with low
to intermediate cutting speed.
HX, H15 and H25 uncoated
F40M PVD-coated grade for fine to medium rough milling. First
choice for milling with small feeds and/or low cutting
speeds.
Excellent for milling when there is a risk of vibrations and when
coolant is used. Recommended for machining
superalloys.
(Ti, Al) N – TiN
MP2500 CVD-coated grade based on Duratomic™ coating. Basic grade
for milling steel and easy/medium dif ficult stainless
steel,
with or without coolant.
Ti (C, N) – Al2O3
MK1500 CVD-coated grade based on Duratomic™ coating. Basic grade
for milling cast iron and nodular cast iron, with or without
coolant.
MK2050 PVD-coated grade for cast iron, Improved edge
integrity.
First choice in all cast iron materials. Excellent for milling with
and without coolant.
(Ti,Si)N/(Ti,Al)N
MP1500 Grade for medium rough milling under stable conditions at
high cutting speeds and for milling hardened steel. Excellent
grade for roughing grey and nodular cast iron.
Ti (C, N) – Al2O3
MS2500
Optimization grade for superalloy materials, also suitable for
rough milling in tool steel.
Ti (C, N) – Al2O3
MM4500
Extremly tough grade for duplex stainless steel. Can also be used
for a wide range of materials
when cutting conditions are unstable.
T350M CVD-coated grade as basic choice for dif ficult
stainless steel and an alternative in
dif ficult operations in steel.
Ti (C, N) – Al2O3
MH1000 Extremely hard grade for milling hard steel but also
favourable in
finishing operations in cast iron.
(Ti;Al)N
MS2050 PVD-coated grade first choice for machining titanium alloys.
Can also be used as a complementary grade for milling
stinless steels when increased toughness is needed.
(Ti;Al) N – NbN
MP3000 Highly wear resistant optimized grade for milling in
steel.
F15M Hard and wear resistant grade for milling in aluminium and
non-ferrous alloys.
Excellent grade, in combination with protected cutting edges, for
high speed machining in hardened steel.
(Ti, Al) N – TiN
(Ti, Al) N – TiN
F30M Basic grade for Minimaster inserts and thread milling
inserts.
Also suitable for milling stainless steel, hardened steel and
superalloys.
(Ti, Al) N – TiN
T60M Tough grade for Minimaster inserts. Suitable for milling in
soft and medium hard steel.
(Ti, Al) N – TiN
Complementary PVD coated grades
HX Wear resistant grade for milling in cast iron and non-ferrous
alloys.
H15 Hard, wear resistant grade for milling in aluminium.
H25 Tough micro-grain carbide grade for milling in superalloys and
aluminium.
MP1020 Cermet grade for fine to medium rough milling of steel at
high cutting speeds and for finishing in austenitic stainless
steel. First choice for high demand on surface finishes.
Composition:
45% cBN content grade with an average grain size of < 1 μm and a
TiCN ceramic
binder.
Coating:
Composition:
65% cBN content grade with an average grain size of < 1 μm and a
TiCN ceramic
binder.
Coating:
Full-face brazed layer and brazed tips (single sided).
Composition:
85% cBN content grade with an average grain size of 2 μm and a
Co-W-Al
ceramic binder.
Solid.
Composition:
90% cBN content grade with an average grain size of 3-6 μm and a Al
ceramic
binder.
Coating:
Solid.
Composition:
90% cBN content grade with an average grain size of 22 μm and a Al
ceramic
binder.
Coating:
Solid.
Composition:
90% cBN content grade with an average grain size of 15 μm and a AlN
ceramic
binder.
Coating:
Composition:
Grade with an average grain size of < 1 μm and a Co
binder.
Coating:
Composition:
Grade with an average grain size of 10 μm and a Co binder.
Coating:
Composition:
Grade with an average grain size of 25 μm and a Co binder.
Coating:
Composition:
Grade with an average grain size of 2-30 μm and a Co binder.
Coating:
50 HRC
P4 Low alloy general structural steels, 0.25% < C <
0.67%wt
Low alloy Quench & Temper steels
520 < Rm < 1200 C 45E
Rm = 660 N/mm2
Quench & Temper steels
Rm = 700 N/mm2
The foundation for SMG v2 is a classification of workpiece
materials based on their type rather than their relative
machinability and consequently it
contains workpiece materials like composites. It is comprehensive
enough, but still easy to identify to which SMG a particular
material belongs.
Each SMG has a specific material standard in a specific condition
assigned as reference to allow easy adjustment of cutting data for
any actual
material compared to any Seco reference material see page
674-677.
As example the reference materials EN C45E for SMG P4 and EN
42 CrMo 4 for both SMG P5 and SMG H5 see further details in the
following
tables.
In SMG v2 classification of workpiece materials involves a specific
material standard in a specific condition assigned as reference for
easy and
unambigious adjustment of cutting data for any actual material
compared to any Seco reference material. As examples the reference
materials
EN C45E for SMG P4 and EN 42 CrMo 4 for both SMG P5 and SMG H5
shown below in table 1 where the reference level material property
is
indicated.
Focusing specifically on EN 42 CrMo 4 in annealed condition, the
ultimate tensile strength Rm may typically vary between Rm =
630 N/mm2 and
Rm = 780 N/mm2, which provide a reference level for SMG P5. In
Quenched & Tempered condition, the ultimate tensile strength
Rm may typically
be between Rm = 900 N/mm2 and Rm = 1100
N/mm2 thus still belongs to SMG P5. However, if hardened above
Rm = 1200 N/mm2 it now belongs
to SMG H5.
The EN 42CrMo4 quench & tempered steel could be used to
illustrate the machinability dependence of materials’
condition.
The graphs below indicate how speed recommendations for a nominal
material conditions may be adjusted for relative Rm (left
diagram valid for
ISO-P) and for relative HRC (valid for ISO-H).
SMG EN W.-Nr AFNOR BS UNI JIS AISI / ASTM GOST Condition R m_nom
HRCnom
P5 42 CrMo 4 1.1201 42 CD 4 708 M 40 42 CrMo 4 SCM 440 (H) 4142,
4140 38HM Annealed 700
42 CrMo 4 1.1201 42 CD 4 708 M 40 42 CrMo 4 SCM 440 (H) 4142, 4140
38HM Quenched & Tempered 1000
H5 42 CrMo 4 1.1201 42 CD 4 708 M 40 42 CrMo 4 SCM 440 (H) 4142,
4140 38HM Quenched & Tempered 45
42 CrMo 4 1.1201 42 CD 4 708 M 40 42 CrMo 4 SCM 440 (H) 4142, 4140
38HM Quenched & Tempered 50
To further illustrate how the SMG v2 SMG P5 nominal
vc can be adjusted to a more accurate recommended vc we
need ultimate tensile strength
Rm data and in this case we use the EN 42 CrMo 4 quenched
& tempered to Rm = 1000 N/mm2 according to above
table (bold blue arrows).
Assume that we find that the SMG P5 nominal vc = 280
m/min for a certain product and machining.
Then, actual recommended vc = 280 m/min x 0,75 = 210
m/min.
Consequently in the SMG H5 the nominal vc can be adjusted
using the hardened EN 42 CrMo 4 at HRC 45 (smaller grey
arrows).
Assume that the SMG H5 nominal vc = 50 m/min for a
certain product and machining using a coated cemented carbide tool
then, actual recom-
mended vc = 50 m/min x 1,2 = 60 m/min.
For further workpiece material details please see page(s) 678-685
and suggested cutting data at applicable pages.
Square shoulder and slot milling cutters
Cutter Insert
XO..06 3
ABEX26 13
S q u
a r e
T 4 LO..08 3
[ \ [ - ] 0,4 / 0,8 / 1,2 /
XN..04 2
[ \ [ - ] 0,4 / 0,8 [ ] \ - \
with low Power / Torque
Possible choice ] Not recommended - Plunging ability
Slotting and contouring
–
R220.90-26 ABEX
see page(s) 48
For helical interpolation, see page 664
Please check availability in current price and stock-list
Torque value 5,0. For dimension of mounting and torque keys, see
page 672
Ramping angle = °
Spare Parts
Part No.
Type of
max Insertap Dc D5m l1
R220.90 -0063-26-4AM Arbor 20 63 55 50 1,5 4 0,7 6700
ABEX26..
-0063-26-5AM Arbor 20 63 55 50 1,5 5 0,7 6700 ABEX26..
Optimized for contouring
R220.90-0063-0080 C05013-T20P T20P-4 MC6S12X35
see page(s) 48
For helical interpolation, see page 664
Please check availability in current price and stock-list
Torque value 5,0. For dimension of mounting and torque keys, see
page 672
Ramping angle = °
Spare Parts
Part No.
Type of
max Insertap Dc D5m l1
R220.90 -0063-26-6AM Arbor 20 63 55 50 1,5 6 1,9 6700
ABEX26..
R220.90-26 ABEX – Insert select ion
SMG ap
f z
SMG = Seco material group
R220.90-26 ABEX – Cutti ng data vc = ( m/min)
SMG
MP1500 MP2500 T350M F40M MK1500 MM4500
100% 30% 10% 100% 30% 10% 100% 30% 10% 100% 30% 10% 100% 30% 10%
100% 30% 10%
R217.96-.. C04011-T15P T15P-4
see page(s) 66–67
Please check availability in current price and stock-list
Torque value 3,5 Nm, Torque keys, see page 672
Part No.
Type of
Insertap Dc dmm l1 l2 l3 lp lc
R217.96 -3240.3-08-3A Cyl.-Weldon 7,5 40 32 84 120 35 60 85 3 0,7
11800 XNEX08..
Slotting and contouring
radial adj.
Wedge clamp
axial adj.
Square 6™ – R220.96-08
see page(s) 66–67
Please check availability in current price and stock-list
Torque value 3,5. For dimension of mounting and torque keys, see
page 672
Spare Parts
Part No.
Type of
Insertap Dc D5m l1
Optimized for contouring
radial adj.
Wedge clamp
axial adj.
key
Square 6™ – R220.96-08
see page(s) 66–67
Please check availability in current price and stock-list
Torque value 3,5. For dimension of mounting and torque keys, see
page 672
Spare Parts
Part No.
Type of
Insertap Dc D5m l1
R217/220.96-08 – Insert select ion
SMG = Seco material group
Slotting and contouring
R217.99-.. C03006-T09P T09P-3
Mini Square – R217.99-09
see page(s) 70–71
Please check availability in current price and stock-list
Torque value 2,0 Nm, Torque keys, see page 672
Spare Parts
Part No.
Type of
Insertap Dc dmm l2 l3 lp lc
R217.99 -2025.3S-09-2A Seco-Weldon 8 25 20 100 37 50 50 2 0,3 21100
SONX09T3
Slotting and contouring
R220.99-0040 C03006-T09P T09P-3 MC6S8X30
R220.99-0050-0063 C03006-T09P T09P-3 220.17-692
see page(s) 70–71
Please check availability in current price and stock-list
Torque value 2,0. For dimension of mounting and torque keys, see
page 672
Spare Parts
Part No.
Type of
Insertap Dc D5m l1
R220.99 -0040-09-3 Arbor 8 40 35 40 3 0,2 16600
SONX09T3
R217/220.99-09 – Insert select ion
SMG = Seco material group
R217/220.99-09 – Cutt ing data v c = ( m/min)
SMG
MP1500 MP2500 T350M F40M MK1500 MK2050
100% 30% 10% 100% 30% 10% 100% 30% 10% 100% 30% 10% 100% 30% 10%
100% 30% 10%
Slotting and contouring
R220.99-0050-0063 C04011-T15P T15P-4 220.17-692
R220.99-0080 C04011-T15P T15P-4 MC6S12X40
see page(s) 73–74
Please check availability in current price and stock-list
Torque value 3,5. For dimension of mounting and torque keys, see
page 672
Spare Parts
Part No.
Type of
Insertap Dc D5m l1
R220.99 -0050-12-4 Arbor 11 50 47 40 4 0,3 10800
SONX1205
R217/220.99-12 – Insert select ion
SMG = Seco material group
R217/220.99-12 – Cutt ing data v c = ( m/min)
SMG
MP1500 MP2500 T350M F40M MK1500 MK2050
100% 30% 10% 100% 30% 10% 100% 30% 10% 100% 30% 10% 100% 30% 10%
100% 30% 10%
XO..06
H e
l i c
a l
T 4 LO..08
[ ] [ – \ 0,4 / 0,8 / 1,2 /
. 5 9
\ \ \ ] ] 1,2/3,1/6,0 _ [ ] _ ]
Helical solution f or side-fi n ishing operation (small radial
engagement)
235.15 [ [ [ - [ chamfer [ [ \ - -
with low Power / Torque
Possible choice ] Not recommended - Plunging ability
See
page12 14 16 20 25 32 40 44 50 54 63 66 80 100
2
16 20 81
42 50 58 58 42 66 86
2
33 33 33 33 44 44 55 44 66 90
55 66 106 107 107 92
2
77 93 93 77 99
4
43 50 50 57 57 64 104
2 & 4 half
2 & 4 full and
2 38 38/50 116
x Slotting and contouring operations (x i ndicates
the maximum depth of cut) Slotting and contouring
x For contouring operations only(x indicates the
maximum depth of cut) Contouring only
Right hand rotation
Note that parts of the code can vary for different cutter
systems
217 = With shank
Cutter system Max. axial
Through coolant supplyShank diameter
R217.69-.. C01804-T06P T06P-3
Turbo 06 – R217.69-06
see page(s) 82–83
For helical interpolation, see page(s) 664
Please check availability in current price and stock-list
Torque value 0,5 Nm. Torque keys, see page 672
Ramping angle = ° *Effective number of flutes
**All corner radii can be used in front row insert, modification of
the body needed for radii > 0,8mm
Spare Parts
Part No.
Type of
max Zc* Insertap Dc dmm l2 l3 lp lc
R217.69-.. C01804-T06P T06P-3
Turbo 06 – R217.69-06
see page(s) 82–83
For helical interpolation, see page(s) 664
Please check availability in current price and stock-list
Torque value 0,5 Nm. Torque keys, see page 672
*Effective number of flutes
Ramping angle = °
**All corner radii can be used in front row insert, modification of
the body needed for radii > 0,8mm
For Combimaster shanks and dimensions, see pages 572-581
Spare Parts
Part No.
Type of
max Zc* Insertap Dc D5m M l1
R217.69-.. C01804-T06P T06P-3
Turbo 06 – R217.69-06
see page(s) 82–83
For helical interpolation, see page(s) 664
Please check availability in current price and stock-list
Torque value 0,5 Nm. Torque keys, see page 672
Ramping angle = ° *Effective number of flutes
**All corner radii can be used in front row insert, modification of
the body needed for radii > 0,8mm
Spare Parts
Part No.
Type of
max Zc* Insertap Dc dmm l2 l3 lp lc
Dia 25 C03507-T10P T10P-3
Dia 32 C03508-T10P T10P-3
Dia 40 C03509-T10P T10P-3
see page(s) 95–96
For helical interpolation, see page(s) 664
Please check availability in current price and stock-list
Torque value 2,0 Nm, Torque keys, see page 672
*Effective number of flutes
Ramping angle = °
**Maxi corner radii 1,6mm can be used in front row insert
***All corner radii can be used in front row insert, modification
of the body needed for radii > 2,0mm
Part No.
Type of
max Zc* Insertap Dc dmm D5m l2 l3 lc
R217.69 -2025.3S-022-12.2AN Seco-Weldon 22 25 20 35 99,5 38 50 5,0
2 4 0,3 20800 XO.X12..**
2
3
c
Dia 25 C03507-T10P T10P-3 –
Dia 32 C03508-T10P T10P-3 –
Dia 40-66 C03509-T10P T10P-3 –
R220.69-00050 C03509-T10P T10P-3 MC6S12X40
R220.69-00063 C03509-T10P T10P-3 MC6S12X50
see page(s) 95–96
For helical interpolation, see page(s) 664
Please check availability in current price and stock-list
Torque value 2,0. For dimension of mounting and torque keys, see
page 672
*Effective number of flutes
Ramping angle = °
**All corner radii can be used in front row insert, modification of
the body needed for radii > 3,1 mm
***Maxi corner radii 1,6mm can be used in front row insert
Part No.
Type of
max Zc* Insertap Dc D5m M l1 l3
For Combimaster shanks and dimensions, see pages 572-581
Dia 32 C03508-T10P T10P-3
Dia 40-50 C03509-T10P T10P-3
see page(s) 95–96
For helical interpolation, see page(s) 664
Please check availability in current price and stock-list
Torque value 2,0 Nm, Torque keys, see page 672
*Effective number of flutes
Ramping angle = °
**All corner radii can be used in front row insert, modification of
the body needed for radii > 3,1 mm
***Maxi corner radii 1,6mm can be used in front row insert
Spare Parts
Part No.
Type of
max Zc* Insertap Dc dmm D5m l2 l3 lc
C5-R217.69-032 C03508-T10P T10P-3 –
see page(s) 95–96
For helical interpolation, see page(s) 664
Please check availability in current price and stock-list
Torque value 2,0. For dimension of mounting and torque keys, see
page 672
*Effective number of flutes
Ramping angle = °
**Maxi corner radii 1,6mm can be used in front row insert
***All corner radii can be used in front row insert, modification
of the body needed for radii > 3,1 mm
Part No.
Type of
max Zc* Insertap Dc D5m l1 l3
–
C6-R217.69-050-12.5SAN R220.69-RE050022-12.5AN C03509-T10P T10P-3
MC6S10X40
C6-R217.69-050-5SAN R220.69-RE050022-12.5AN C03509-T10P T10P-3
MC6S10X40
R220.69-00063-12.4SAN R220.69-RE063033-12.4AN C03509-T10P T10P-3
MP6S12X80
C6-R217.69-063-12.5SAN R220.69-RE063033-12.5AN C03509-T10P T10P-3
MC6S10X40
C8-R217.69-080-12.6SAN R220.69-RE080033-12.6AN C03509-T10P T10P-3
MC6S16X40
Spare Parts
see page(s) 95–96
For helical interpolation, see page(s) 664
Please check availability in current price and stock-list
Torque value 2,0. For dimension of mounting and torque keys, see
page 672
*Effective number of flutes
Ramping angle = °
**Maxi corner radii 1,6mm can be used in front row insert
***All corner radii can be used in front row insert, modification
of the body needed for radii > 3,1 mm
Part No.
Type of
max Zc* Insertap Dc D5m l1 l3