1
Contents
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General information mill ing cutters Code keys, shanks, cutter
geometries
and insert clamping system . . . . . . . . . . . . . . . . . . . .
. . . . . . 6 - 9
General in formation inserts Code keys, insert geometries and
grades . . . . . . . . . . . . . . . 10 - 18
Face milling cutters . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 -
111
Square shoulder and slot mill ing cutters . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . 112 - 185
Helical milli ng cutters . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 186 -
238
Disc milling cutters . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . 239 -
308
Plunge milli ng cutters . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 309 -
327
Copy milling cutters . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . 328 -
382
High feed milli ng cutters . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 383 -
397
Minimaster® Plus . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . 398 - 418
Combimaster® . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . 498 - 510
Other inserts. . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . 576 - 584
PCD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . 587 - 588
Max RPM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . 589
Plunge milling . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . 596
Power requirement . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 601
Milling cutters In milling Seco uses product specific designation
systems- there is no ISO system available for cutters. See example
below.
Code key for face milling cutter 217/220.53
217 = With shank 220 = For arbor mounting
Cutter diameter Effective No. teeth (Zc)
Right -hand rotation
W = Insert locking with wedge
G = Coarse pitch version for low power machines
T = Close pitch version for high feed rates in powerful
machines
C = With adjustable cassettes
Insert size
Note that parts of the code key can vary for different cutter
systems. The specific code keys are found in the cutter selection
guidelines.
Diameter of back face for arbor mounted cutters
Arbor hole mm
16 35
22 47
27*** 62
32 77
40 90
60* 130
60** 225
Type 0 – Cylindrical Type 2 – Morse taper ISO 296
Ex.: R217.69-2525.0-12-3AN
Ex.: R217.69-03025-16 alt. R217.69-0325.2-09
Morse taper No. 3
Type 3 – Weldon® Tool chucks acc. to ISO 5414 DIN 1835
Type 3S – Seco/Weldon® Tool chucks acc. to ISO 5414 DIN 1835
Ex.: R217.69-2525.3-09A Ex.: R217.69-2532.3S-12-4AN
Type 3P – Weldon®/bayonet For use in Weldon holder or collet
chuck with
bayonet fitting.
Ex.: R218.20-2.0050.3P-70.120 Ex.: R215.59-50.080.077-12.4
ANSI-B5.50 JIS B6339
Type MAS BT
Cutter dia = 160mm No. of inserts = 10 Normal pitch
cutter
Cutter dia = 160mm No. of inserts = 7 Coarse pitch cutter for
low power machines
Cutter dia = 160mm No. of inserts = 14 Close pitch cutter for
high feed rates in powerful machines
ƒ
Clamping by S - screw
The inserts are clamped by an inclined screw which holds the insert
in position in its seat.
Clamping by a wedge
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
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.
Clamping by spring action
The inserts are retained by a clamping/spring action into a fixed
insert seat
Minimaster clamping
The insert is clamped in position by means of a finger-shaped
clamping screw which draws the insert into a cone
Minimaster Plus clamping
Code keys
Dimensions refer to theoretical measurements. Nominal dimensions
and tolerances on Seco inserts may differ from the table below.
Actual tolerances for each insert type are shown in the insert
section in the catalogue.
1. Shape
3
, 1
7
5
*
4
, 7
5. Cutting edge length
A, B, K C, D, E, M, V H, O, P
L R S
1st letter
A = 45
D = 60
E = 75
F = 85
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
Easy machining conditions, sharp insert cutting edge.
Increasing chip thickness/feed rate
Examples of different insert geometries for a specific insert
type
..AFTN-D20 Negative and very protected cutting edge
..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
Difficult machining conditions, strong insert cutting edge.
Grades Cemented carbide is an alloy of tungsten carbide (WC) and
cobalt (Co). Cubic carbides like tantalum carbide (TaC), titanium
carbide (TiC) and niobium carbide (NbC) can also be added. Tungsten
carbide is the main component and gives 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 modern grades are coated with either CVD (Chemical Vapour
Deposition) or PVD (Physical Vapour Deposition) technique. The
coating improves the wear resistance of the grade. With
CVD-technique layers of titanium carbide (TiC), titanium nitride
(TiN), titanium carbonitride (Ti(C,N)) and alumina (Al2O3) can be
made. CVD-coated grades are suitable for wear resistance in
demanding applications with high feed rates and intermediate to
high cutting speed. The common coating materials made by
PVD-technique are titanium nitride (TiN), titanium carbonitride
(Ti(C,N)) and titanium aluminium nitride ((Ti, AL)N). 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.
* Uncoated
Basic grades
MK1500 CVD-coated grade based on Duratomic TM coating. Basic
grade for milling cast iron and nodular cast iron, with or without
coolant. Ti (C, N) – Al2O3
MP2500 CVD-coated grade based on Duratomic TM coating. Basic
grade for milling steel and easy/medium difficult stainless steel,
with or without coolant. Ti (C, N) – Al2O3
F40M PVD-coated grade for f ine 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
Complementary CVD coated grades
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
T350M CVD-coated grade as basic choice for difficult stainless
steel and an alternative in difficult operations in steel. Ti (C,
N) – Al2O3
MK3000 Optimization grade in soft to medium hard steel under stable
conditions, with or without coolant. Ti (C, N) – Al2O3
MS2500 Optimization grade for super alloy 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.
Complementary PVD coated grades
MH1000 Extremely hard grade for milling hard steel but also
favourable in finishing operations in cast iron. (Ti;Al)N
MK2000 Complementary grade for dif ficult operations in square
shoulder and slot milling in cast iron and nodular cast iron. (Ti;
Al)N
MP3000 Highly wear resistant optimized grade for milling in
steel.
(Ti, Al) N
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
F25M Tough grade for rough milling in tool steel.
(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
ncoate gra es
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.
Cermet
C15M Cermet grade for fine to medium rough milling of steel at high
cutting speed and for finishing in austenitic stainless steel.
First choice for high demand on surface finishes.
Diamond (PCD)
PCD05 This grade with an average grain size of 1 micron has a
well sintered, homogeneous structure.
PCD20 PCD20 is the first choice grade for general purposes.
It has a 10 microns grain size.
CBN060K Solid, brazed tips (single and double sided)
• First choice for continuous to moderate interrupted cuts in
hardened steel (ap <0,5 mm).
• New (Ti,Si,Al)N PVD coating developed for high speed
machining.
• New unique superalloy binder.
CBN10 Brazed tips (single sided) or sintered layer
• For light continuous to moderate interrupted cuts in hardened
steel (ap <0,5 mm).
CBN100 Solid insert
• For light continuous to moderate interrupted cuts in hardened
steel (ap <0,5 mm).
CBN150 Brazed tips (single sided) or sintered layer
• Ideal for high surface requirements.
• Tougher but slightly less wear resistant alternative to CBN10 and
CBN100.
• For interrupted cuts in hardened steel (ap <0,5 mm).
• For aggressive interrupted cuts in hardened steel (ap<0,5
mm).
• (Ti,Si)N PVD coating developed for high speed machining.
CBN170 Solid and brazed tips (double sided)
• For high speed continuous cuts in nickel based superalloys
(ap <0,5 mm).
• New unique whisker reinforced binder.
CBN200 Solid, brazed tips (single sided) or sintered
layer
• For medium rough machining of hardened steel (ap = 0,5–1,0
mm).
• For finishing and roughing of pearlitic and white/chilled cast
iron.
• For finishing of sintered iron.
• For roughing and finishing of powder metal (iron).
CBN300 CBN300P Solid insert
• For finishing and roughing of manganese steel.
• For finishing and roughing of pearlitic, chilled and white cast
iron.
Coated (PVD) (Ti,Al)N + TiN
CBN400C Solid insert
• Fine grain high CBN grade, for machining of pearlitic grey cast
iron.
• New (Ti,Si)N PVD coating.
CBN500 Solid insert
• Tougher than CBN300 resulting in reduced chipping and edge
flaking in aggressive workpiece material.
• For roughing of hardened steel.
• For finishing and roughing of manganese steel.
Code key Note that parts of the code can vary for different cutter
systems
217 = With shank 220 = For arbor mounting
Cutter diameter Effective No. of teeth (Zc)
Right -hand rotation
W = Insert locking with wedge
G = Coarse pitch version for low power machines
T = Close pitch version for high feed rates in powerful
machines
C = With adjustable cassettes
Plunging Ramping Helical
Quattromill-09 217/220.53-09
• Dia range Ø 20-500 mm, See pages 26 - 33
• General purpose light cutting face milling cutter for mixed
production in all materials.
• Fixed pockets, and cassettes normal and close pitch
• Insert types SEEX09T3, SEMX09T3
• Insert size 09 mm
• Max ap 4,5 mm
First choice general purpose
• Dia range Ø 40-500 mm, See pages 34-40
• General purpose light cutting face milling cutter for mixed
production in all materials.
• Fixed pockets and cassettes, normal,coarse and close pitch.
• Insert types SEEX1204, SEMX1204
• Insert size 12 mm
• Max ap 6 mm
• Dia range Ø 63-500 mm, See pages 41 - 46
• General purpose light cutting face milling cutter for mixed
production in all materials.
• Fixed pockets and cassettes, normal,coarse and close pitch
• Insert types SEEX1505, SEMX1505
• Insert size 15 mm
• Max ap 7,5 mm
Octomill-07 220.43-07
• Dia range Ø 50-500 mm, See pages 47 - 50
• Versatile face milling cutter which can be used for many types of
operations, in all materials.
• Fixed pockets and cassettes, normal, coarse and close pitch
• Insert types OFE. 070405
• Insert size 07 mm
• Max ap 5 mm
Octomill-05 220.43-05
• Dia range Ø 24-500 mm, See pages 53 - 57
• Versatile face milling cutter which can be used for many types of
operations, in all materials.
• Fixed pockets and cassettes, normal, coarse and close pitch
• Insert types OFEX 05T305
• Insert size 05 mm
• Max ap 3,5 mm
Octomill-07S 220.43-07S
• Dia range Ø 51-125 mm, See page 58
• Versatile cutter wich can be used for both face and square
shoulder operations, in all materials.
• Fixed pockets and normal pitch.
• Insert types OF.T/W 070405
• Insert size 07 mm
• Max ap 5 mm
Double Octomill 220.48-09
• Dia range Ø 80-315 mm, See pages 59 - 63
• Face milling cutter for depth of cut up to 6 mm for cast iron
materials.
• Fixed pockets, close and super close pitch
• Seco-Capto™
Hexamill-12CM 220.66-12
• Dia range Ø 63-250 mm , See pages 65 - 68
• Face milling cutter for depth of cut up to 8 mm for mixed
production in all materials.
• Fixed pockets and cassettes, normal, coarse and close
pitch.
• Insert types HPM_1206ZE..
220.30-12ST 220.30 C
• Dia range Ø 80-355 mm, See pages 69 - 70 and 77 - 78
• Face milling cutter for finishing in cast iron and other
materials.
• Adjustable pocket seat, arbor or CAP mounting, super close
pitch
• Insert types SEEX1203AFTN
220.44-15
• Dia range Ø 80-500 mm, See pages 71 - 75.
• Face milling cutter for roughing in cast iron materials.
• Fixed or adjustable pocket seat, Arbor or CAP mounting, close and
super close pitch.
• Insert types SNHF1504.
• Dia range Ø 63-160 mm, See pages 79 - 80
• Face milling cutter for roughing in cast iron materials.
• Fixed pocket seat, Arbor or CAP mounting, close and super
close pitch
• Insert types SNH.15
• Dia range Ø 63-125 mm, See page 51
• Face milling cutter with eight cutting edges for all around use
in cast iron materials.
• Adjustable pocket seat, super close pitch
• Insert types OFE_070405
217/220.70-06/09
• Dia range Ø 20-63 (06 size) Ø 63-200 mm (09 size), See pages 81 -
83
• Face milling cutter for roughing with high speed in cast iron
materials.
• Fixed pocket (06 size) or adjustable pocket seat (09 size),
normal pitch
• Insert types RN..060300 or RN..09/ SNEX12
• Insert size 06 or 09 mm
• Max ap 3 or 4,5 mm
Economical solution, mass production
• Dia range Ø 63-200 mm, See page 84
• Face milling cutter for finishing and roughing with high speed in
cast iron materials.
• Adjustable pocket seat, normal pitch.
• Insert types SN..09/SNEX12.
k = 60 Page 85 Page 87 k = 42 Page 64
Ø 63 – 315 mm For large depth of cut
Max ap 12 mm Inser t type SP..19
Ø 50 – 100 mm For machining hard materials
– fixed pockets Max ap 8 mm
Insert type REHR16
and aerospace segment Max ap 3,5 mm
Insert type ODMT05
in all materials Fixed pockets seat
Max ap 2,6-3,1 Insert type SNHQ
Choice of cutter, inserts and cutting data
1 • Select cutter Use the previous pages to choose a suitable
cutter.
2 • Select cutter diameter The ideal cutter diameter for a
favourable cutting process is 1,25 x the width of the workpiece.
(See figure 1.)
• Look up the pages for the selected cutter and choose a suitable
diameter in the tool data table.
3 • Select inserts. Use the tables beginning on page 603 to
classify the workpiece material into a Seco material group.
• Use the insert selection table to choose suitable inserts.
• Use the tool data table to find out the number of inserts
needed.
4 • Select cutting data
• Maximum recommended cutting depth is found in the tool data
table. (See figure 2.)
• Minimum and maximum feed per tooth recommendations are found in
the insert selection table. Choose a value in the middle for normal
operations.
• The feed per revolution must be smaller than the wiper flat
width of the selected insert if a good surface finish is to be
achieved. (The wiper flat width can be found in the insert size
table.) If the feed per revolution is larger than the wiper flat
width of the selected insert, one or more specific wiper
inserts can be used to achieve a good surface finish.
• Cutting speed recommendations are in the cutting data table.
Maximum rpm that for safety reasons should never be exceeded, are
shown on each product page. Formulae for cutting data calculation
are on page 597.
5 • Power requirement See page 601 for power requirement
calculation
6 • Molykote 1000 is recommended for insert locking screws. Part
No. MOLYKOTE 1000-50G.
Figure 1
Figure 2
Type of mountingDc Dc2 dmm l2 lp lc ap
R217.53 -2020.3S-09-2A 20 30 20 90 40 50 4,5 2 0,2 Seco/Weldon
25100 SE..09T3
-2025.3S-09-3A 25 35 20 90 40 50 4,5 3 0,3 Seco/Weldon 22400
SE..09T3
-2032.3S-09-4A 32 42 20 90 40 50 4,5 4 0,4 Seco/Weldon 19800
SE..09T3
For cutter
Quattromill ® 217.53-09
• For insert selection and cutting data recommendations, see pages
88 - 89.
• For complete insert programme, see pages 537 - 538. Tool angles:
o = +10
p = +20
Type of mountingDc Dc2 D5m l1 ap
C5-R217.53 -040-09-4A 40 50 50 55 4,5 4 0,7 17700 Seco-Capto C5
SE..09T3
-050-09-5A 50 60 50 55 4,5 5 0,8 15800 Seco-Capto C5 SE..09T3
-063-09-6A 63 73 50 55 4,5 6 1,0 14100 Seco-Capto C5 SE..09T3
-080-09-6A 80 90 50 55 4,5 6 1,2 12500 Seco-Capto C5 SE..09T3
For cutter
Quattromill ® 217.53-09-C5
• For insert selection and cutting data recommendations, see pages
88 - 89.
• For complete insert programme, see pages 537 - 538. Tool angles:
o = +10
p = +20
f = - 5
R220.53 -0032-09-4A 32 42 40 4,5 4 0,2 19800 SE..09T3
-0040-09-4A 40 50 40 4,5 4 0,4 17700 SE..09T3
-0050-09-5A 50 60 40 4,5 5 0,4 15800 SE..09T3
-0063-09-6A 63 73 40 4,5 6 0,6 14100 SE..09T3
-0080-09-6A 80 90 50 4,5 6 1,2 12500 SE..09T3
-0100-09-7A 100 110 50 4,5 7 1,8 11200 SE..09T3
For cutter
R220.53-0032 C03008-T09P T09P-3 220.17-690
R220.53-0080–0100 C03008-T09P T09P-3 –
R220.53-0040–0063 22 47 10,4 6,3 22
R220.53-0080 27 62 12,4 7 27
R220.53-0100 32 77 14,4 8 32
Quattromill ® 220.53-09
• For insert selection and cutting data recommendations, see pages
88 - 89.
• For complete insert programme, see pages 537 - 538. Tool angles:
o = +10
p = +20
f = - 5
Please check availability in current price and stock-list.
R220.53 -0040-09-5A 40 50 40 4,5 5 0,4 17700 SE..09T3
-0050-09-6A 50 60 40 4,5 6 0,4 15800 SE..09T3
-0063-09-7A 63 73 40 4,5 7 0,6 14100 SE..09T3
-0080-09-8A 80 90 50 4,5 8 1,2 12500 SE..09T3
-0100-09-10A 100 110 50 4,5 10 1,8 11200 SE..09T3
For cutter
R220.53-0080–0100 C03008-T09P T09P-3 –
R220.53-0040–0063 22 42 10,4 6,3 22
R220.53-0080 27 62 12,4 7 27
R220.53-0100 32 77 14,4 8 32
Quattromill ® 220.53-09
• For insert selection and cutting data recommendations, see pages
88 - 89.
• For complete insert programme, see pages 537 - 538. Tool angles:
o = +10
p = +20
f = - 5
Please check availability in current price and stock-list.
R220.53 -0080-09-5C 80 90 50 4,5 5 1,7 7400 SE..09T3
-0100-09-6C 100 110 50 4,5 6 2,6 6600 SE..09T3
-0125-09-8C 125 135 63 4,5 8 4,2 5900 SE..09T3
-8160-09-10C 160 170 63 4,5 10 6,6 5200 SE..09T3
-8200-09-12C 200 210 63 4,5 12 9,6 4700 SE..09T3
-8250-09-16C 250 260 63 4,5 16 17,3 4200 SE..09T3
-8315-09-18C 315 325 80 4,5 18 32,8 3700 SE..09T3
For cutter
R220.53-.. SE09AR-53 FS96018 C03007-T09P T09P-3 AU1114T-T15P
For cutter
R220.53-0080 27 62 12,4 7 – – 27 –
R220.53-0100 32 77 14,4 8 – – 32 –
R220.53-0125 40 90 16,4 9 – – 40 –
R220.53-8160 40 90 16,4 9 66,7 – 40 ISO40
R220.53-8200-8250 60 130 25,7 14 101,6 – – ISO50
R220.53-8315 60 225 25,7 14 101,6 117,8 – ISO50, ISO60
Quattromill ® 220.53-09C
• For insert selection and cutting data recommendations, see pages
88 - 89 .
• For complete insert programme, see pages 537 - 538. Tool angles:
o = +10
p = +20
f = - 5
* Torque value 2,0 Nm. Dynamomentic keys, see page 590. Key
T15P-3 for setting gauge and Key H04-4 for cassette screw to be
ordered separately
Please check availability in current price and stock-list.
R220.53 -8160-09-7C 160 170 63 4,5 7 6,6 5200 SE..09T3
-8200-09-8C 200 210 63 4,5 8 9,4 4700 SE..09T3
-8250-09-10C 250 260 63 4,5 10 17,1 4200 SE..09T3
-8315-09-12C 315 325 80 4,5 12 32,8 3700 SE..09T3
-8400-09-16C 400 410 80 4,5 16 51,3 3300 SE..09T3
-8500-09-20C 500 510 80 4,5 20 80,7 2900 SE..09T3
For cutter
R220.53-.. SE09AR-53 FS96018 C03007-T09P T09P-3 AU1114T-T15P
For cutter
R220.53-8160 40 90 16,4 9 66,7 – 40 ISO40
R220.53-8200-8250 60 130 25,7 14 101,6 – – ISO50
R220.53-8315-8500 60 225 25,7 14 101,6 177,8 – ISO50,ISO60
Quattromill ® 220.53-09C
• For insert selection and cutting data recommendations, see pages
88 - 89.
• For complete insert programme, see pages 537 - 538. Tool angles:
o = +10
p = +20
f = - 5
* Torque value 2,0 Nm. Dynamomentic keys, see page 590. Key
T15P-3 for setting gauge and Key H04-4 for cassette screw to be
ordered separately
Please check availability in current price and stock-list.
R220.53 -0080-09-6C 80 90 50 4,5 6 1,7 7400 SE..09T3
-0100-09-8C 100 110 50 4,5 8 2,6 6600 SE..09T3
-0125-09-10C 125 135 63 4,5 10 4,2 5900 SE..09T3
-8160-09-14C 160 170 63 4,5 14 6,6 5200 SE..09T3
For cutter
R220.53-.. SE09AR-53 FS96018 C03007-T09P T09P-3 AU1114T-T15P
For cutter
R220.53-0080 27 62 12,4 7 – – 27 –
R220.53-0100 32 77 14,4 8 – – 32 –
R220.53-0125 40 90 16,4 9 – – 40 –
R220.53-8160 40 90 16,4 9 66,7 – 40 ISO40
Quattromill ® 220.53-09C
• For insert selection and cutting data recommendations, see pages
88 - 89.
• For complete insert programme, see pages 537 - 538. Tool angles:
o = +10
p = +20
f = - 5
* Torque value 2,0 Nm. Dynamomentic keys, see page 590. Key
T15P-3 for setting gauge and Key H04-4 for cassette screw to be
ordered separately
Please check availability in current price and stock-list.
R220.53 -0080AL-09-6CA 80 90 50 0,2-4,5 6 0,8 8400 SEE.09T3
-0100AL-09-8CA 100 110 50 0,2-4,5 8 1,2 7500 SEE.09T3
-0125AL-09-12CA 125 135 63 0,2-4,5 12 1,9 6700 SEE.09T3
-8160AL-09-14CA 160 170 63 0,2-4,5 14 2,9 6000 SEE.09T3
-8200AL-09-16CA 200 210 63 0,2-4,5 16 4,1 5300 SEE.09T3
-8250AL-09-20CA 250 260 63 0,2-4,5 20 7,0 4800 SEE.09T3
-8315AL-09-22CA 315 325 80 0,2-4,5 22 13,0 3700 SEE.09T3
For cutter
R220.53-.. SE09AR-53 FS96020 C03007-T09P T09P-3 AU1114T-T15P
For cutter
R220.53-0080 27 62 12,4 7 – – 27 –
R220.53-0100 32 77 14,4 8 – – 32 –
R220.53-0125 40 90 16,4 9 – – 40 –
R220.53-8160 40 90 16,4 9 66,7 – 40 ISO40
R220.53-8200-8250 60 130 25,7 14 101,6 – – ISO50
R220.53-8315 60 225 25,7 14 101,6 177,8 – ISO50,ISO60
Quattromill ® 220.53-AL-09-CA
• For insert selection and cutting data recommendations, see page
94.
• For complete insert programme, see pages 537, 569. Tool angles:
o = +10
p = +20
f = - 5
* Torque value 2,0 Nm. Dynamomentic keys, see page 590.
Key T15P-3 for setting gauge and Key H04-4 for cassette screw to be
ordered separately
Please check availability in current price and stock-list.
R220.53 -0100-15-5A 100 116 50 7,5 5 1,7 6600 SE..1505
-0125-15-6A 125 141 63 7,5 6 3,2 5900 SE..1505
For cutter
Quattromill ® 220.53-15
• For insert selection and cutting data recommendations, see pages
92 - 93.
• For complete insert programme, see page 540. Tool angles:
o = +10
p = +20
f = - 5
Please check availability in current price and stock-list.