Data Loading...
SCI WGX Brochure 2022
46 Downloads
19.65 MB
Twitter Facebook LinkedIn Copy link
RECOMMEND FLIP-BOOKS
CAT.WGXBROCHURE.5/22
WGX Series High-Rake, General-Purpose Face Milling Cutter
Unique chipbreaker design achieves low cutting force and high-quality surface finish
Ready to Create New Standards
WGX S ERIES -
High Rake, General Purpose Face Milling Cutter
¢ General Features WGX Series employs a unique chipbreaker design to provide lower cutting force and higher-quality surface finish than conventional cutters. Lineup of insert grades and chipbreakers has been significantly expanded, and employment of the ACM series enables machining of stainless steel and exotic alloys.
¢ Features
Reduced Cutting Force - High-rake chipbreaker designed for use with the WGX Series achieves low cutting force High Quality - Improved runout precision and unique wiper flat shape ensure excellent surface finish quality - Additional edge chamfer reduces burrs and edge chipping Wide Ranging Product Lineup - A wide selection of grades along with 4 types of chipbreakers and wiper inserts are available. - Can be used for a wide variety of machining applications.
General-purpose G Chipbreaker ¢ Insert Shape Features
(1) Unique wiper flat shape for improved surface roughness
(2) Large rake angle and cutting edge rake angle for improved sharpness
Optimal corner radius for high strength
(2)
(1)
FG Chipbreaker with Low-Burr Design
Additional edge chamfer reduces burrs on cutting surfaces
2
WGX S ERIES - ¢ Product Range
High Rake, General Purpose Face Milling Cutter
Standard Pitch WGX - R(S)
WGXM - R(S)
Extra Fine Pitch WGXF - R(S)
WGX - EW
Fine Pitch
Endmill
Diameter (Inch) Diameter ( mm ) ø2.0 ø2.5 ø3.0 ø4.0 ø4.0* ø5.0 ø6.0 ø8.0 ø10.0 ø32 ø40 ø50 ø63 ø80 ø100 ø125 ø160 ø200 ø250
Type
Cat. No.
Description
Standard Pitch 3 4 4 5 5 6 7 8 10
WGX40000R
4 5 6 7 7 8 10 12
WGXM40000R
Fine Pitch
Extra Fine Pitch 5 6 8 10 10 12 16 20
WGXF40000R
4 5
WGX40000EW
Endmill
4 5 6 7 8 10
Standard Pitch
WGX13000R Inch Arbor
3 3 4 4 5 6 7 8 10
WGX13000RS
Standard Pitch
6 7 8 10 12 14
Arbor Fine Pitch
WGXM13000R Inch
4 5 6 7 8 10 12 14
WGXM13000RS
Fine Pitch
8 10 12 16 20 24
Arbor Extra Fine Pitch
WGXF13000R Inch
5 6 8 10 12 16 20 24
WGXF13000RS
Extra Fine Pitch
3 3 4 5
WGX13000EW
Endmill
● Numbers inside are number of teeth Inch
Arbor Inch Arbor Sizes of ø6.000” and 125mm and below have coolant holes, *: 4.000” cutter diameter with 1.500” arbor diameter
¢ Precautions when Using Wiper Inserts with Holes · When mounting the wiper insert, attach it as shown in Fig 1. When mounted as shown in Fig 2, normal machined surface roughness cannot be obtained.
· The wiper insert has a single corner specification. · For milling with wiper inserts, see "The Basics of Milling, Milling Edition" in Chapter N of the General Catalogue.
Fig 1
Fig 2
3
WGX S ERIES -
High Rake, General Purpose Face Milling Cutter
Chipbreaker Selection Guide ¢ hipbreaker Selection
¢ Chipbreaker Selection Guide
Good
K M P S
K P
K M P
S
N
Part Material
L Light Cutting
General-purpose/ Burr Prevention
Surface Finish Emphasised
Applications
Light Cutting
General-purpose
Heavy Cutting
General-purpose (Standard)
FG Low-Burr Design
Standard / With Chamfer
Standard
High Strength
Wiper
Features Low Cutting Force
G
L FG G H W
H Heavy Cutting
Chipbreaker
Cutting Edge Strength
Heavy
.0059”
.0059”
.0079”
.0019”
Cutting Edge Cross Section
15°
20°
20°
25°
Comparison of Cutting Force ¢ General-purpose G Chipbreaker
Surface Finish Comparison
Runout with Insert Attached
Feed Force Principal Force
Back Force
1.2
2,000
80
inish
rce
Surf ace F
tting Fo
1.0
Low Cu
s
1,500
60
Good
r Les
0.8
1/2 o
ut
Runo
0.6
1,000
40
0.4
500
20
0.2
0
0
0
WGX Competitor's Product
Conventional Tool
WGX
WGX Competitor's Product
Conventional Tool
Conventional Tool
Part Material: 1050 Steel, Tool: ø4.000” Cutting Conditions: v c =660 SFM, f z =0.008 IPT, a p =0.12”
Part Material: 1050 Steel, Tool: ø4.000” Cutting Conditions: v c =660 SFM, f z =0.008 IPT, a p =0.12”
Tool: WGXM44000R Number of Teeth: 7
¢ FG Chipbreaker with Low-Burr Design
Rotation Direction
Work Material Feed Direction
Area Prone to Burrs
Disengage: 70°
Additional edge chamfer reduces burrs on cutting surfaces
Machined Surface Comparison
Work Material
FG Type
G Type
Conventional Tool
Competitor's Product
Machine: Machining Center BT50 Tool: WGXM44000R Insert Grade: ACP200 Cutting Conditions: v c =660 SFM, f z =0.008 IPT,
1050
Burr formation
a p =0.12in, a e =3.15in Dry
304
Burr formation
Burr formation
4140
Burr formation
Burr formation
Burr formation
4
WGX S ERIES -
High Rake, General Purpose Face Milling Cutter
■ Grade Application Range
Work Material Grade Finishing to Light Cutting Medium Cutting Rough to Heavy Cutting
Work Material
Finishing to Light Cutting Medium Cutting Rough to Heavy Cutting Grade
C
ACP100
C
ACK200
ACP200
P
Cast Iron
ACK300
P
ACP300
Steel
P
T4500A
DL1000
P
C
ACM200
Non-Ferrous Metal
H1
Stainless Steel
ACM300
P
The letters "C" and "P" at the end of each grade indicate the coating type. C
P : CVD, : PVD, Blank: Uncoated
■ Coating Features Super FF Coat (CVD: Chemical Vapor Deposition) C Provides excellent wear resistance and high reliability thanks to our coating stress control technology and the ultra-fine crystal grain coating layer of the Super FF Coat achieved through our proprietary CVD process technology. Achieves excellent chipping resistance with smooth coating and our coating stress control technology. High-speed, high-efficiency machining at a level more than 1.5 times higher than conventional tools is possible with a high hardness coating layer. Achieves more than double the tool life of conventional tools under the same cutting conditions. Characteristics of the Coating Layer Fracture Resistance
Coating Hardness: 30% Increase Surface Roughness: 50% Reduction
WGX Type
Super FF Coat
Alumina
ACP100
50
Special Surface Treatment Improves Fracture Resistance
Competitor's Product
40
Conventional coating
TiCN
30
Conventional Tool
ACP100 ACM200 ACK200 Super FF Coat
20
0
4
8
12
16
20
Cutting Length until Breakage (in)
Substrate
0.05 0.10 0.15 0.20
Part Material: 1050 Steel Hole Material, Tool: WGX13100R (New ACP100) Cutting Conditions: v c =660 SFM, f=0.018 IPM, a p =0.08in, a e =2.05in Dry
Cross-section of Coating
TiCN Surface Roughness Ra (μm)
New Super ZX Coat (PVD: Physical Vapor Deposition) P
Employs our super multi-layered New Super ZX Coat, which utilizes our proprietary thin-layer coating technology and advanced nanotechnology. The coating consists of thousands of alternating, nanometer-thin (1 nanometer=1 billionth of a meter) layers. Compared to conventional tools, the coating hardness has been increased by 40% and the oxidization starting temperature has been increased by 200°C. Enables more than 1.5 times the machining speed and efficiency of conventional tools. Achieves more than double the tool life of conventional tools under the same cutting conditions. Characteristics of the Coating Layer Wear Resistance Film Features
New Super ZX Coat
12 10
60
ACP200 WGX Type
■
Competitor's Product
Super ZX Coat
50
8 6 4 2
Laminating Cycle up to 10nm
D
Conventional Tool
F
40
ZX Coat
D
■ F
D
■ F
TiCN
D D
30
F
No. of Teeth z=1
TiAIN
■ ■ F D D
ACP200 ACP300 ACM300 ACK300 New Super ZX Coat
■ F D
0
20
40
60
80
TiN
20
Cutting Time (min)
10nm
600 800 1,000 1,200
Machine: Machining center BT50, Part Material: 1050 Steel, Tool: WGX13100R (New ACP200) Cutting Conditions: v c =660 SFM, f z =0.011in/t, a p =0.08in, a e =2.05in Dry
Film Cross-Section (TEM Image)
Oxidisation Starting Temperature (°C)
5
WGX S ERIES - WGX Recommended Cutting Conditions - Inch
High Rake, General Purpose Face Milling Cutter
Cutting Speed v c (SFM) - Depth of Cut
Feed Rate (IPT) .006-.015 .006-.015 .006-.015 .006-.015 .006-.015 .006-.015 .006-.015 .006-.015 .006-.015 .006-.015 .006-.015 .006-.015 .006-.012 .006-.012 .006-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.012 .004-.015 .004-.015 .004-.012 .004-.012 .004-.010 .004-.010 .006-.015
Material
Hardness Grade
.002" -.050"
.050" - .125" 725-1250 675-1150 650-1025 575-950 525-900 500-825 575-950 550-925 525-900 700-1250 675-1225 650-1050 450-790 435-775 425-760 400-735 400-725 410-690 300-630 300-625 520-820 515-800 325-775 275-725 475-720 225-725 525-825 475-775 625-925 575-875 550-875 500-775 110-500 70-150 1000-4000
.125" & over
ACP100 ACP200 ACP300 ACP100 ACP200 ACP300 ACP100 ACP200 ACP300 ACP100 ACP200 ACP300 ACP100 ACP200 ACP300 ACP100 ACP200 ACP300 ACP100 ACP200 ACM300 ACM300 ACM200 ACM300 ACM300 ACM200 ACK200 ACK300 ACK200 ACK300 ACK200 ACK300 ACM200 ACM300
775-1300 725-1200 675-1075 600-975 550-900 525-875 600-975 575-950 550-925 775-1300 750-1275 675-1075 475-820 450-800 435-785 425-775 415-750 405-700 325-650 315-640 535-850 525-825 350-800 300-750 500-740 250-750 600-950 500-850 700-1050 600-950 600-925 550-825 125-550 100-160
675-1200 600-1125 525-925 550-900 500-875 475-800 550-900 500-875 525-850 675-1200 650-1150 650-1025 425-750 400-725 400-715 400-700 375-690 375-680 300-590 300-580 275-800 250-775 300-750 250-700 450-675 200-700 490-800 450-750 590-900 550-850 490-800 450-750
Low and Medium Carbon Steels