new april 2016 - wntkt-nw-04-16-00198-$kp-broschuere_en... · maximum process reliability due to...
TRANSCRIPT
New New products for cutting tool engineers
2TOTAL TOOLING = QUALITY x SERVICEWNT (UK) Ltd. • Sheffield Business Park • S9 1XU Sheffield • Tel. 0800 073 2 073 • [email protected] • www.wnt.com
Unique – the 90° shoulder milling system of WNT90° x 8 cutting edges + Dragonskin = More Power
Steel Stainless steel Cast iron
April 2016
For machining of
2
Hard wearing nickel plated body
Narrow and wide pocket
Easy handling with a large insert
Double-sided 90° milling system 4910
The search for a powerful, process-safe and high quality shoulder milling system is over. With the new double-sided 90° milling system 4910 WNT presents a unique system providing a precise 90° profile with 8 usable cutting edges per insert. Maximum efficiency guaranteed when shoulder milling.
For the first time this system allows an exact 90° profile with 8 usable cutting edges per insert.
Exact 90° Profile
www.wnt.com/uk/4910
Irregular pitch for quiet machining
CompetitorWNT
Cutter Ø: 63 mm Material: 36CrNiMo4 vc: 150 m/min ae: 6–20 mm
fz in mm 0,27+ 100%0,13
ap in mm 86
+ 33%
Chip volume, Q cm3/min 193105
+ 84%
Number of finished components 3
2+ 50%
Field test reports
Milling tools with indexable insertsIntroduction
3
With these extremely stable inserts the highest cutting data is possible, very smooth running even with less powerful machines and thin walled components.
Dragonskin technology with 8 cutting edges for maximum economy
Exact 90° – no programming adjustment necessary
Precision ground insert for perfect axial and radial run-out accuracy
Maximum process reliability due to the extremely stable insert Maximum tool life due to the stable insert location positioning and Dragonskin coating
New Dragonskin Coating
Very high efficiency with 8 usable cutting edges
the first choice for machining non, low and high alloyed steels
The first choice for machining austenitic, ferritic and martensitic stainless steels
The first choice for the machining of ductile and malleable irons and sintered steels
Dragonskin – the correct Dragon for every material typeIn combination with the Dragonskin coating system 4910 is not only extremely hard-wearing, but also provides a maximum performance and process reliability.
vc in m/min 250+ 14%
220
fz in mm 0,250,15
+ 67%
Chip volume, Q cm3/min 245+ 88%
Usable cutting edges 84
+ 100%
ĉ Very high metal removal rates ĉ Maximum service life ĉ 8 usable cutting edges
per insert at exact 90° ĉ Highest cutting data ĉ Soft cutting action through
positive chip breakers ĉ Low power consumption ĉ Universal application
in various materials
Advantages/Benefits
Cutter Ø: 50 mm Material: 16MnCr5 ap: 3.5 mm ae: 35 mm
130
CompetitorWNT
Milling tools with indexable insertsIntroduction
4
A selection of tools for every application
Cutter body overview
Ø 32 mm
Ø 32 mmØ 40–160 mm
Grade designation Grade designation Stan
dard
des
igna
tion P M K N S H
Stee
l
Stai
nles
s ste
el
Cast
iron
Non
ferr
ous m
etal
s
Heat
resi
stan
t
Hard
ened
mat
eri-
als
Steel
DCX1230 ĉ Dry machining of steels ĉ High metal removal
P30 ●
M25 ○
DPX1235 ĉ Specialist for wet machining ĉ Suitable for unstable conditions in steel machining
P35 ●
M30 ○
Stainless steel
DPX2240 ĉ Grade with the highest strength for machining
Stainless Materials
M40 ●
P40 ○
Cast iron
DCX3215 ĉ Cast iron machining ĉ Suitable for higher cutting speeds
K15 ○ ●
DPX3220 ĉ Tougher grade for high-strength cast iron materials ĉ Suitable for unstable work piece surfaces
K20 ○ ●
Non ferrous metals
CWK4615 ĉ Polished surface ĉ Sharp and smooth geometry
K15 ○ ●
● Main Application
○ Extended application
Grade designation
Milling tools with indexable insertsIntroduction
5
Screw in cutter G 4910
Aa
d 1 d 2M
SW
NEW 2BDesignation d1 A M d2 a SW Insert z Article no.
DC LPR CCTMS DCONMS APMX DRVS ZNF 50 773 ...mm mm mm mm mm £
G491.32.R.02-12 32 35 M16 17 8 24 SNHU 1204 2 280.70 50773032
End milling cutter C 4910
a
d 1 d 2l1
l3
A B
NEW 2B NEW 2BDesignation d1 l1 l3 d2 h6 a Insert z Article no. z Article no.
DC OAL LH DCONMS APMX ZNF 50 774 ... ZNF 50 774 ...mm mm mm mm mm £ £
C491.32.R.02-12-B-40 32 102 40 32 8 SNHU 1204 2 280.70 50774032C491.32.R.02-12-A-63-250 32 250 63 32 2 SNHU 1204 2 280.70 50774232
Y7 Y7 2A 2A Y7
TORX® blade Key D Molykote Clamping screw Torque screwdriver
Article no. Article no. Article no. Article no. Article no.Spare parts 80 950 ... 80 950 ... 70 950 ... 70 950 ... 80 950 ...d1 £ £ £ £ £32 5.97 80950054 14.09 80950128 3.67 70950303 2.62 70950859 163.72 80950002
Milling tools with indexable insertsSystem 4910
6
Shell mill A 4910
a
A
d1
d3
d2
NEW 2B NEW 2BDesignation d1 A d3 d2 H6 a Insert z Article no. z Article no.
DC OAL DHUB DCONMS APMX ZNF 50 775 ... ZNF 50 776 ...mm mm mm mm mm £ £
A491.40.R.03/04-12 40 40 38 16 8 SNHU 1204 3 324.56 50775040 4 350.88 50776040A491.50.R.04/05-12 50 40 43 22 8 SNHU 1204 4 359.65 50775050 5 385.96 50776050A491.63.R.05/06-12 63 40 48 22 8 SNHU 1204 5 429.82 50775063 6 456.14 50776063A491.80.R.06/08-12 80 50 58 27 8 SNHU 1204 6 456.14 50775080 8 526.32 50776080A491.100.R.07/10-12 100 50 78 32 8 SNHU 1204 7 578.95 50775100 10 657.89 50776100A491.125.R.08/12-12 125 63 88 40 8 SNHU 1204 8 701.75 50775125 12 807.02 50776125A491.160.R.09/14-12 160 63 98 40 8 SNHU 1204 9 815.79 50775160 14 947.37 50776160
Y7 Y7 2A 2A 2A Y7
TORX® blade Key D Power Screw Molykote Clamping screw Torque screwdriver
Article no. Article no. Article no. Article no. Article no. Article no.Spare parts 80 950 ... 80 950 ... 70 950 ... 70 950 ... 70 950 ... 80 950 ...d1 £ £ £ £ £ £40 5.97 80950054 14.09 80950128 10.44 70950151 3.67 70950303 2.62 70950859 163.72 8095000250 - 160 5.97 80950054 14.09 80950128 3.67 70950303 2.62 70950859 163.72 80950002
Milling tools with indexable insertsSystem 4910
7
SNHUDesignation d d1 l s
IC D1 L S
mm mm mm mmSNHU 1204.. 12.2 4.4 12.2 5
s
d 1
l
r
d
SNHU-F50 -F10
DPX 2240
CWK 4615
SNHU SNHUNEW 1B NEW 1B
ISO r Article no. Article no.RE 51 102 ... 51 101 ...
mm £ £120408FR 0.8 21.75 51101358120408SR 0.8 21.75 51102408
Steel ○ Stainless steel ● Cast iron ○Non ferrous metals ●Heat resistant alloys hardened materials
SNHU-M50 -M50 -M50 -R50 -R50
DCX 1230
DPX 1235
DPX 2240
DCX 3215
DPX 3220
SNHU SNHU SNHU SNHU SNHUNEW 1B NEW 1B NEW 1B NEW 1B NEW 1B
ISO r Article no. Article no. Article no. Article no. Article no.RE 51 100 ... 51 100 ... 51 100 ... 51 103 ... 51 103 ...
mm £ £ £ £ £120408SR 0.8 21.75 51100008 21.75 51100108 21.75 51100408 21.75 51103508 21.75 51103608
Steel ● ● ○ ○ ○Stainless steel ○ ○ ● Cast iron ● ●Non ferrous metals Heat resistant alloys hardened materials
Milling tools with indexable insertsSystem 4910
8
Index Material Strength Material number Material designation Material
number Material designation Material number Material designation
N/mm² / HB / HRC
P
1.1 General construction steel < 800 N/mm2 1.0402 EN3B
1.2 Free cutting steel < 800 N/mm2 1.0711 EN1A
1.3 Hardened steel, non alloyed < 800 N/mm2 1.0401 EN32C
1.4 Alloyed hardened steel < 1000 N/mm2 1.7325 25 CD4
1.5 Tempering steel, unalloyed < 850 N/mm2 1.5752 EN36 1.0535 EN9
1.6 Tempering steel, unalloyed < 1000 N/mm2 1.6582 EN24
1.7 Tempering steel, alloyed < 800 N/mm2 1.7225 EN19
1.8 Tempering steel, alloyed < 1300 N/mm2 1.8515 EN40B
1.9 Steel castings < 850 N/mm2 0.9650 G-X 260 Cr 27 1.6750 GS-20 NiCrMo 3.7 1.6582 GS-34 CrNiMo 6
1.10 Nitriding steel < 1000 N/mm2 1.8509 EN41B
1.11 Nitriding steel < 1200 N/mm2 1.1186 EN8 1.1160 EN14A
1.12 Roller bearing steel < 1200 N/mm2 1.3505 534A99
1.13 Spring steel < 1200 N/mm2 EN45 EN47 EN43
1.14 High-speed steel < 1300 N/mm2 1.3343 M2 1.3249 M34
1.15 Cold working tool steel < 1300 N/mm2 1.2379 D2 1.2311 P20
1.16 Hot working tool steel < 1300 N/mm2 1.2344 H13
M
2.1 Cast steel and sulphured stainless steel < 850 N/mm2 1.4581 318
2.2 Stainless steel, ferritic < 750 N/mm2 1.4000 403
2.3 Stainless steel, martensitic < 900 N/mm2 1.4057 EN57
2.4 Stainless steel, ferritic / martensitic <1100 N/mm2 1.4028 EN56B
2.5 Stainless steel, austenitic / ferritic < 850 N/mm2 1.4542 17-4PH
2.6 Stainless steel, austenitic < 750 N/mm2 1.4305 303 1.4401 316 1.4301 304
2.7 Heat resistant steel < 1100 N/mm2 1.4876 Incoloy 800
K
3.1 Grey cast iron with lamellar graphite 100–350 N/mm2 0.6015 Grade 150 0.6020 Grade 220 0.6025 Grade 260
3.2 Grey cast iron with lamellar graphite 300–500 N/mm2 0.6030 Grade 300 0.6035 Grade 350 0.6040 Grade 400
3.3 Gray cast iron with spheroidal graphite 300–500 N/mm2 0.7040 SG 400-12 0.7043 SG 370-17 0.7050 SG 500-7
3.4 Gray cast iron with spheroidal graphite 500–900 N/mm2 0.7060 SG 600-3 0.7070 SG 700-2 0.7080 SG 800-2
3.5 White malleable cast iron 270–450 N/mm2 0.8035 GTW-35 0.8045 GTW-45
3.6 White malleable cast iron 500–650 N/mm2 0.8055 GTW-55 0.8065 GTW-65
3.7 Black malleable cast iron 300–450 N/mm2 0.8135 GTS-35 0.8145 GTS-45
3.8 Black malleable cast iron 500–800 N/mm2 0.8155 GTS-55 0.8170 GTS-70
N
4.1 Aluminium (non alloyed, low alloyed) < 350 N/mm2 3.0255 1050 A 3.0275 1070 A 3.0285 1080 A (A8)
4.2 Aluminium alloys < 0.5% Si < 500 N/mm2 3.1325 2017 A (AU4G) 3.4335 7005 (AZ5G) 3.4365 7075 (AZ5GU)
4.3 Aluminium alloy 0,5 - 10% Si < 400 N/mm2 3.2315 A- G S1 3.2373 A-S9 G 3.2151 A-S 6 U4
4.4 Aluminium alloys 10 - 15% Si < 400 N/mm2 3.2581 A-S12 3.2583 A-S12 U
4.5 Aluminum alloys > 15% Si < 400 N/mm2 A-S18 A-S17 U4
4.6 Copper (non alloyed, low alloyed) < 350 N/mm2 2.0040 Cu-c1 2.0060 Cu-a1 2.0090 Cu-b1
4.7 Copper wrought alloys < 700 N/mm2 2.1247 Cub2 (Berylium Copper) 2.0855 CuN2S (Nickel Copper) 2.1310 CU-Fe2P
4.8 Special copper alloys < 200 HB 2.0916 Cu-A5 2.1525 Cu-S3 M Ampco 8 (Cu-A6Fe2)
4.9 Special copper alloys < 300 HB 2.0978 Cu-Al11 Fe5 Ni5) Ampco 18 (Cu- A10 Fe3)
4.10 Special copper alloys > 300 HB 2.1247 Cu Be2 Ampco M4
4.11 Short-chipping brass, bronze, red bronze < 600 N/mm2 2.0331 Cu Zn36 Pb1,5 2.0380 Cu Zn39 Pb2 (Ms 56) 2.0410 Cu Zn44 Pb2
4.12 Long-chipping brass < 600 N/mm2 2.0335 Cu Zn 36 (Ms63) 2.1293 Cu Cr1 Zr
4.13 Thermoplastics PE PVC PS Polystyrene Plexiglas
4.14 Duroplastics PF Bakelite Pertinax
4.15 Fibre-reinforced plastics Carbon Fibre Fibreglass Aramid Fibre (Kevlar)
4.16 Magnesium and magnesium alloys < 850 N/mm2 3.5812 Mg A7 Z1 3.5662 Mg A9 3.5105 Mg Tr3 Z2 Zn 1
4.17 Graphite R8500X R8650 Technograph 15
4.18 Tungsten and tungsten alloys W-Ni Fe (Densimet) W- Ni Cu (Inermet) Denal
4.19 Molybdenum and molybdenum alloys TZM MHQ Mo W
S
5.1 Pure nickel 2.4066 Ni99 (Nickel 200) 2.4068 Lc Ni99 (Nickel 201)
5.2 Nickel alloys 1.3912 Fe-Ni36 (Invar) 1.3917 Fe -Ni42 (N42) 1.3922 Fe-Ni48 (N48)
5.3 Nickel alloys < 850 N/mm2 2.4375 Ni Cu30 Al (Monel K500) 2.4360 Ni Cu30Fe (Monel 400) 2.4668
5.4 Nickel molybdenum alloys 2.4600 Ni Mo30Cr2 (Hastelloy B4) 2.4617 Ni Mo28 (Hastelloy B2) 2.4819 Ni Mo16Cr16 Hastell. C276
5.5 Nickel-chromium alloys < 1300 N/mm2 2.4951 Ni Cr20TiAl (Nimonic 80A) 2.4858 Ni Cr21Mo (Inconel 825) 2.4856 Ni Cr22Mo9Nb Inconel 625
5.6 Cobalt Chrome Alloys < 1300 N/mm2 2.4964 Co Cr20 W15 Ni10 Co Cr20 Ni16 Mo7 Co Cr28 Mo 6
5.7 Heat resistant alloys < 1300 N/mm2 1.4718 Z45 C S 9-3 1.4747 Z80 CSN 20-02 1.4845 Z12 CN 25-20
5.8 Nickel-cobalt-chromium alloys < 1400 N/mm2 2.4851 Ni Cr23Fe (Inconel 601) 2.4668 Ni Cr19NbMo (Inconel 718) 2.4602 Ni Cr21Mo14 Hastelloy C22
5.9 Pure titanium < 900 N/mm2 3.7025 T35 (Titanium Grade 1) 3.7034 T40 (Titanium Grade 2) 3.7064 T60 (Titanium Grade 4)
5.10 Titanium alloys < 700 N/mm2 T-A6-Nb7 (367) T-A5-Sn2-Mo4-Cr4 (Ti17) T-A3-V2,5 (Gr18)
5.11 Titanium alloys < 1200 N/mm2 3.7165 T-A6-V4 (Ta6V) T-A4-3V-Mo2-Fe2 (SP700) T-A5-Sn1-Zr1-V1-Mo (Gr32)
H
6.1
Tempered steel
< 45 HRC
6.2 46–55 HRC
6.3 56–60 HRC
6.4 61–65 HRC
6.5 65–70 HRC
Material examples referring to the WNT cutting data tables
Milling tools with indexable insertsCutting Data
9
Cutting Material hard (vc↑) → tough (vc↓) Cutting Material hard (vc↑) → tough (vc↓)
Index
DCX1230 DPX1235 DPX2240 DCX3215 DPX3220 CWK4615
1.1 280 170 240 140 220 130 350 210 300 1801.2 230 140 190 110 170 100 300 180 250 1501.3 280 170 240 140 220 130 350 210 300 1801.4 250 150 220 130 200 1201.5 250 150 210 130 190 110 320 190 270 1601.6 250 150 210 130 190 110 320 190 270 1601.7 250 150 220 130 200 1201.8 190 110 160 100 140 801.9 230 140 200 120 180 100 300 180 260 1601.10 250 150 220 130 200 1201.11 140 90 120 70 100 601.12 250 150 220 130 200 1201.13 250 150 210 130 190 110 320 190 270 1601.14 100 60 90 50 90 501.15 130 80 110 70 120 701.16 130 80 110 70 120 702.1 90 60 80 50 80 502.2 130 80 110 70 120 702.3 90 60 80 50 80 502.4 130 80 110 70 120 702.5 190 110 190 1102.6 190 110 210 1202.7 190 110 210 1203.1 360 160 320 160 80 803.2 360 160 320 160 80 803.3 230 140 210 130 80 803.4 160 100 140 80 80 803.5 250 150 200 120 80 803.6 250 150 200 120 80 803.7 210 130 170 100 80 803.8 210 130 170 100 80 804.1 2804.2 2504.3 8004.4 8004.5 5004.6 2004.7 80 804.8 80 804.9 80 804.10 70 704.11 80 804.12 80 804.13 80 804.14 80 804.15 80 804.16 80 1104.17 80 804.18 904.19 1305.15.25.35.45.55.65.75.85.95.105.116.16.26.36.46.5
Cutting data appoximate values
Milling tools with indexable insertsCutting Data
10
0 0,05 0,10 0,15 0,20 0,25
2
0
4
8
6
10
12
0 0,05 0,10 0,15 0,20 0,25 0,30 0,35
10
20
30
40
50
60
0,40 0,45
70
80
90
100
0,05
0
0,07
5
0,10
0
0,12
5
0,15
0
0,20
0
0,25
0
0,30
0
0,35
0
0,40
0
Example: Start value (fz) = 0.10 mm ae = 30 % corrected value (fz) = 0.19 mm
Corrected Values fz in mm
Start values fz in mm from starting parameter diagram
Starting ParameterExample materialsSteel 1000 N/mm2 1.2312 40CrMnMoS 8-6
Stainless steel 600 N/mm2 1.4571 X6CrNiMoTi 1712 2
Cast iron 180 HB 5.1301 EN-GJL-250
Aluminium 450 N/mm2 3.4365 Alu
Starting parameters for a contact width > 50 %
With ae < 50 % please note the correction table below
Correction of the tooth load fz
These values apply to an engagement width (ae) below 50 %!
a e in %
a p in m
m
fz in mm
Milling tools with indexable insertsTechnical Information
11
ModelMachining
sectional illustration fz in mmfine medium rough
-F10
38°
0,05–0,25
ĉ Very positive geometry ĉ Sharp cutting edge ĉ Prevents sticking and
edge build up ĉ First Choice for
non-ferrous metal
CWK4615
CWK4615 CWK4615 CWK4615
-F50
31°
0,15
0,10–0,20
ĉ Positive geometry ĉ Finishing and light roughing ĉ First choice for stainless steel
materials
DPX2240 DPX2240
-M50 DCX1230/DPX1235 DPX1235/DCX1230
0,15
25°
0,10–0,25
ĉ Universal geometry ĉ Light to medium roughing ĉ First choice for general steel
materials
DPX2240 DPX2240
-R50
0,2020
°
0,10–0,30
ĉ Stable geometry ĉ Strong roughing geometry ĉ For heavily interrupted cutting ĉ First choice for cast iron
materials
DCX3215/DPX3220 DPX3220/DCX3215
Chip Breakers Overview
Grade designation
DCX 1230
DPX 1235
DPX 2240
CVD TiN/MT-TiCN/Al2O3 | ISO – P30 First choice for dry machining of steel with high cutting data.
PVD TiAlTaN | ISO – P35 Particularly suitable for wet machining of steels.
PVD TiAlTaN | ISO – M40 First choice for machining austenitic steels.
DPX 3220
CWK 4615
PVD TiAlTaN | ISO – K20 Ideal for machining high-strength cast materials in tougher applications.
Uncoated grade | ISO – K15 Milling non ferrous metals.
DCX 3215
CVD TiN/MT-TiCN/Al2O3 | ISO – K15 The first choice for the machining of cast materials at high cutting speeds.
Milling tools with indexable insertsTechnical Information
2TOTAL TOOLING = QUALITY x SERVICE
04/2
016
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022
0019
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