Technical reference – Sandvik Coromant Threading User Manual
Page 88
88
P
P1.1.Z.AN 01.1 1500
125
0.25
365–360–345
P2.1.Z.AN 02.1 1700
175
0.25
300–295–285
P3.0.Z.AN 03.21 2900
300
0.25
140–140–135
M
P5.0.Z.AN 05.11 1800
200
0.21
255–225–180
M1.0.Z.AQ 05.21 1950
200
0.21
250–225–180
M3.1.Z.AQ 05.51 2000
230
0.21
205–185–145
K
K1.1.C.NS 07.2 900
230
0.28
240–195–160
K2.2.C.UT 08.2 1100
245
0.28
255–210–170
K3.1.C.UT 09.1 900
160
0.28
200–165–135
N
N1.2.Z.UT 30.11 400
60
990–910–850
N1.3.C.UT 30.21 600
75
0.25
990–910–850
N3.2.C.UT 33.2 550
90
495–460–425
S
S1.0.U.AN 20.11 2400
200
0.25
65–60–55
S2.0.Z.AG 20.22 2900
350
0.25
37–34–32
S4.2.Z.AN 23.21
1400 950
0.23
70–65–60
H
H1.3.Z.HA 04.1 4200
59
HRC
0.25
40–36–29
5. Technical reference
CoroMill® 327 and CoroMill® 328
Thread milling cutting speed recommendations with grade GC1025, metric
Specifi c cut-
ting force k
c
Hardness
Brinell
Max chip thickness.
h
ex
mm
0.05–0.1–0.15
ISO MC No.
CMC
No.
Material
N/mm
2
HB
mc
Cutting speed v
c
.
m/min
Steel
Unalloyed
C = 0.1–0.25%
Low alloyed (alloying elements ≤ 5%)
Non-hardened
High alloyed (alloying elements ≤ 5%)
Hardened tool steel
Stainless steel
Ferritic/matensitic
Non-hardened
Austentic
Non-hardened
Austenitic-ferritic (Duplex)
Non-weldable ≥ 0.05%C
Malleable cast iron
Pearlitic (long chipping)
Grey cast iron
High tensile strength
Nodular cast iron
Ferritic
Aluminium alloys
Wrought or wrought and coldworked. non-aging
Aluminium alloys
Cast. non-aging
Copper and copper alloys
Brass. leaded bronzes. ≤1% Pb
Heat resistant super alloys
Iron base
Annealed or solution treated
Nickel base
Aged or solution treated and aged
Titanium alloys
. near and + alloys. annealed
Extra hard steel
Hardened and tempered