S111412RC Solid carbide (SC)
Clamping element
Type W
Tool geometry
Feed direction possibility
End face design - radius
Oil coolant.
With coolant holes
Solid carbide
ta-C coating
D
e8
d l1 l2 l3 Dn R Z Item code On stock
6 6 57 15 19 5,4 0,1 3 S111412RC.060 Yes
8 8 63 21 25 7,2 0,1 3 S111412RC.080 Yes
10 10 72 24 32 9 0,1 3 S111412RC.100 No
12 12 83 28 36 11 0,2 3 S111412RC.120 No
14 14 83 30 36 13 0,2 3 S111412RC.140 Yes
16 16 92 35 42 15 0,2 3 S111412RC.160 No
18 18 92 38 42 17 0,2 3 S111412RC.180 No
20 20 104 42 52 19 0,2 3 S111412RC.200 Yes
25 25 120 50 62 24 0,2 3 S111412RC.250 Yes

Cutting conditions


Material

Strength

Ap

Ae

Vc
fz(mm/z)
Ø3

Ø4

Ø5

Ø6

Ø8

Ø10

Ø12

Ø16

Ø20

Ø25
N.1 | Aluminium, Aluminium cast alloys Si (Si ≤ 6%) ≤ 400 N/mm² 0,3xD 1xD 400 0,039 0,052 0,065 0,078 0,104 0,13 0,156 0,208 0,26 0,325
N.2 | Aluminium cast alloys Si (Si ≤ 12%) ≤ 600 N/mm² 0,3xD 1xD 350 0,039 0,052 0,065 0,078 0,104 0,13 0,156 0,208 0,26 0,325
N.4 | Cooper-zinc alloys, cooper-tin alloys ≤ 800 N/mm² 0,3xD 1xD 350 0,039 0,052 0,065 0,078 0,104 0,13 0,156 0,208 0,26 0,325

Calculations of cutting conditions

Product attributes

Clamping element

Clamping element

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Straight shank with clamping flat (Weldon) according to DIN 6535 HB.
Tool geometry

Tool geometry

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Helix angle = 44-46°. Rake angle = 15°.
End face design - radius

End face design - radius

With coolant holes

With coolant holes

ta-C coating

ta-C coating

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ta-C coating is designed for machining non-ferrous metals, aluminium alloys with higher Si content, copper, brass, bronze and plastics. Due to its small thickness, very low coefficient of friction and low tendency to stick, ta-C coating is suitable for materials with a tendency to stick as it prevents build-up on cutting edges.
Type W

Type W

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For machining of soft materials, for example aluminium and non-ferrous metals.
Feed direction possibility

Feed direction possibility

Oil coolant.

Oil coolant.

Solid carbide

Solid carbide

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Carbide materials are characterised by high compressive strength, high hardness and therefore high wear resistance, but also limited flexural strength and toughness.