Carbide Endmill, E457 Chamfer 60° HA, VHM, TiAlN

£12.68£38.85

Carbide Endmill, E457 Chamfer 60° HA, VHM, TiAlN

Description

Carbide Endmill, E457 Chamfer 60° HA, VHM, TiAlN, 4 Flute for chamfering & deburring component edges. Straight flute for smooth cutting.
Range
Features
Application
Specification
pitemdiameterd1mmdiameterd1inchlengthl1mmlengthl2mmdiameterd2mmz RRP
(inc GST)
Image Info
E4570600 1.20 NA 57 3.8 6 4 £13
  • E4570600
  • 1.20
  • NA
  • 57
  • 3.8
  • 6
  • 4
  • Pack Qty: 1
  • Barcode: 9311963566269
  • Order Multiple: 1
E4570800 1.60 NA 63 5.5 8 4 £17
  • E4570800
  • 1.60
  • NA
  • 63
  • 5.5
  • 8
  • 4
  • Pack Qty: 1
  • Barcode: 9311963566276
  • Order Multiple: 1
E4571000 2.00 NA 72 6.9 2 4 £27
  • E4571000
  • 2.00
  • NA
  • 72
  • 6.9
  • 2
  • 4
  • Pack Qty: 1
  • Barcode: 9311963566283
  • Order Multiple: 1
E4571200 2.40 NA 83 8.3 12 4 £39
  • E4571200
  • 2.40
  • NA
  • 83
  • 8.3
  • 12
  • 4
  • Pack Qty: 1
  • Barcode: 9311963566290
  • Order Multiple: 1
  • Endmill, Chamfer, 4 Flute, 60°
  • Straight flute for smooth cutting
  • 60° form
  • TiAiN for longer tool life
ISO VDI Description Condition Hardness Strength Optimal
P 1 Steel - Non-alloy, cast & free cutting (~ 0.15 %C) Annealed 125 440
P 2 Steel - Non-alloy, cast & free cutting (~ 0.45 %C) Annealed 190 640
P 3 Steel - Non-alloy, cast & free cutting (~ 0.45 %C) Quenched & Tempered 250 840
P 4 Steel - Non-alloy, cast & free cutting (~ 0.75 %C) Annealed 270 910
P 5 Steel - Non-alloy, cast & free cutting (~ 0.75 %C) Quenched & Tempered 300 1010
P 6 Steel - Low alloy & cast < 5% of alloying elements Annealed 180 610
P 7 Steel - Low alloy & cast < 5% of alloying elements Quenched & Tempered 275 930
P 8 Steel - Low alloy & cast < 5% of alloying elements Quenched & Tempered 300 1010
P 9 Steel - Low alloy & cast < 5% of alloying elements Quenched & Tempered 350 1180
P 10 Steel - High alloy, cast & tool Annealed 200 680
P 11 Steel - High alloy, cast & tool Hardened & Tempered 325 1100
P 12 Steel - Corrosion resistant & cast - Ferritic / Martensitic Annealed 200 680
P 13 Steel - Corrosion resistant & cast - Martensitic Quenched & Tempered 240 810
M 14.1 Stainless Steel - Austenitic Age Hardened 180 610
M 14.2 Stainless Steel - Duplex 250 840
M 14.3 Stainless Steel - Precipitation Hardening 250 840
K 15 Cast Iron, Grey (GG) - Ferritic / Pearlitic 180 610
K 16 Cast Iron, Grey (GG) - Pearlitic 260 880
K 17 Cast Iron, Nodular (GGG) - Ferritic 160 570
K 18 Cast Iron, Nodular (GGG) - Pearlitic 250 840
K 19 Cast Iron, Malleable - Ferritic 130 460
K 20 Cast Iron, Malleable - Pearlitic 230 780
S 31 High temperature alloys - Fe based Annealed 200 680
S 32 High temperature alloys - Fe based Age Hardened 280 950
S 33 High temperature alloys - Ni / Co based Annealed 250 840
S 34 High temperature alloys - Ni / Co based Age Hardened 350 1180
S 35 High temperature alloys - Ni / Co based Cast 320 1080
S 36 Titanium & Titanium alloys - CP Titanium 400
S 37.1 Titanium & Titanium alloys - Alpha alloys 860
S 37.2 Titanium & Titanium alloys - Alpha / Beta alloys Annealed 960
S 37.3 Titanium & Titanium alloys - Alpha / Beta alloys Age Hardened 1170
S 37.4 Titanium & Titanium alloys - Beta alloys Annealed 830
S 37.5 Titanium & Titanium alloys - Beta alloys Age Hardened 1400
H 38.1 Hardened steel Hardened & Tempered 45
H 38.2 Hardened steel Hardened & Tempered 55
H 40 Cast Iron - Chilled Cast 400 1350

KEY

Optimal Effective PSteel MStainless KCast Iron NNon-Ferous Metals STitanium & Super Alloys HHard Materials
Designation
N
Material
VHM
Finish
TiAIN
Shank Form
HA
Shank Tolerance
h6
Point Form
Square End
Standard
Sutton
Rake Angle
0