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INTERCOMERCE NKR CONSULTORIA E NEGÓCIOS LTDA
CHEMICAL ANALYSES AND MECHANICAL PROPERTIES OF ROLLED PRODUCTS,
SPECIFIED BY INTERNATIONAL STANDARDS
CONTENT
I. REINFORCING STEEL BARS
I.I. REBARS IN LENGTHS
I.II. REBARS IN COILS
II. PROFILED BARS
III. WIRE ROD
III. I. LOW CARBON WIRE ROD
III. II. MEDIUM CARBON WIRE ROD
III. III. HIGH CARBON WIRE ROD
III. IV. CORD QUALITY WIRE ROD
III. V. WELDING QUALITY WIRE ROD
Steel Products Specifications
The present specifications are intended to support the mill’s Marketing and Sales Service in its
precontract negotiations with customers. The mill’s internal quality requirements to the rolled products and
production methods are set forth in Process Sheets and Quality Plans.
I. REINFORCING STEEL BARS
Reinforcing steel bars are manufactured both in lengths and in coils. The maximum and the
minimum bundle lengths are 12 m and 6m, respectively. Reinforcing steel bars in cut lengths are normally
manufactured in nominal diameters from 8 to 40 mm (dia. 28, 32, 36 and 40 mm are less preferable and
orders for these sizes shall be limited in number), with the size series depending on the standard for a
specific type of product and being limited by the above specified range of sizes. Reinforcing steel bars are
manufactured hot rolled - without special cooling, with cooling at final stages (to reduce final rolling
temperatures to avoid recrystallization) and with thermal hardening (an intensive water
cooling).
Reinforcing steel bars in coils are manufactured in nominal diameters:
- from 5,5 to 14,0 mm – plain round bars;
- from 6 to 14,0 mm – hot rolled ribbed reinforcing steel bars;
- from 8 to 12,0 mm – thermally treated ribbed reinforcing steel bars (depending on the class of
strength).
The coil weight is 1350 ± 150 kg. In the course of manufacturing, coils of less than 1000 kg in
weight may be formed, therefore, a portion of coils from 500 to 1200 kg in weight, say up to 2% of a lot
quantity, is recommended to be agreed upon when negotiating orders.
As of today, the steel products have been approved against the following national standards:
BS 4449-97 (UK), DIN488-84/86 (Germany), LNEC E449-98 (Portugal), LNEC E450-98
(Portugal), STO ASChM 7-93 (Russia).
The list of referenced national standards included in the present part of the specifications:
DIN 488-84/86 part 6. REINFORCING STEEL BARS. GRADES. PROPERTIES.
MARKING.
LNEC Е 449-98. STEEL ROLLED PRODUCTS FOR THE REINFORCEMENT OF
CONCRETE, А 400NR GRADE
LNEC Е 450-98. STEEL ROLLED PRODUCTS FOR THE REINFORCEMENT OF
CONCRETE, А 500NR GRADE
SFS 1215-1996. HOT ROLLED WELDABLE RIBBED REINFORCING STEEL BARS OF
А500HW GRADE.
Steel Products Specifications
CAN/CSA G30.18-M92. ROLLED PRODUCTS FOR THE REINFORCEMENT OF
CONCRETE.
ASTM A615/A615M-96a/95b. PLAIN ROUND AND RIBBED STEEL BARS FOR THE
REINFORCEMENT OF CONCRETE.
ASTM A706/A706M-96. LOW ALLOY STEEL RIBBED BARS FOR THE
REINFORCEMENT OF CONCRETE.
BS 4449-97. CARBON STEEL BARS FOR THE REINFORCEMENT OF CONCRETE.
EU 80-85/82-79. REINFORCING STEEL BARS FOR THE NON-PRESTRESSED
REINFORCEMENT. TECHNICAL CONDITIONS OF DELIVERY.
ISO 6935 part 2. STEEL FOR THE REINFORCEMENT OF CONCRETE. RIBBED
REINFORCING STEEL BARS.
GOST 5781-82 HOT ROLLED STEEL BARS FOR THE REINFORCEMENT OF
CONCRETE STRUCTURES.
SТО АSChM 7-93 DEFORMED REINFORCING STEEL BARS.
DSTU 3760-98 STEEL BARS FOR THE REINFORCEMENT OF CONCRETE
STRUCTURES.
TU U 14-4-490-2000. REINFORCING STEEL BARS WITH A SPECIFIED CONTENT OF
ALLOYING ELEMENTS, FOR THE REINFORCEMENT OF CONCRETE
GOST 10884-94 MECHANICALLY AND HEAT-TREATED REINFORCING STEEL BARS
FOR CONCRETE STRUCTURES.
TU 14-1-5454-2002 MECHANICALLY AND HEAT-TREATED RIBBED REINFORCING
STEELS FOR CONCRETE STRUCTURES.
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in le
ngth
s
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Stee
l gr
ade
Nom
inal
diam
eter
2)
C
M
n Si
P
S Cr
Ni
Cu
N
Сeq
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
δ 5
, %
A
gt,
%
σв/
σт
1
2 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
18
I.I.
1. D
IN 4
88-8
4/86
(rib
bed
rein
forc
ing
bars
) B
St50
0S
8, 1
0, 1
2, 1
4,
16, 2
0, 2
5, 2
8 ≤ ≤≤≤
0.22
≤ ≤≤≤
1.40
≤ ≤≤≤
0.35
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
≤ ≤≤≤0.
25
3)
≤ ≤≤≤0.
60
3)
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
3)
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
≥ ≥≥≥ 1
0 N
/S
N/S
≥ ≥≥≥
1,0
5
I.I.
2. B
S 44
49-9
7 (p
lain
rou
nd a
nd r
ibbe
d re
info
rcin
g ba
rs)
460В
8,
10,
12,
16,
20
, 25
≤ ≤≤≤0.
25
N/S
N
/S
≤ ≤≤≤0.
050
≤ ≤≤≤0.
050
N/S
N
/S
N/S
≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.51
N
/S
≥ ≥≥≥ 4
60
N/S
≥ ≥≥≥
14
N/S
≥ ≥≥≥
1,0
8
250
8, 1
0, 1
2, 1
6 ≤ ≤≤≤
0.25
N
/S
N/S
≤ ≤≤≤
0.06
0 ≤ ≤≤≤
0.06
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
42
N/S
≥ ≥≥≥
250
N
/S
≥ ≥≥≥ 2
2 N
/S
≥ ≥≥≥ 1
,15
I.I.
3. E
U 8
0-85
/82-
79 (
ribb
ed r
einf
orci
ng b
ars)
F
eB50
0 ≤ ≤≤≤
0.22
N
/S
N/S
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
N/S
≥ ≥≥≥
12
≥ ≥≥≥ 2
,5
≥ ≥≥≥ 1
,05
FeB
400
8, 1
0, 1
2, 1
4,
16, 1
8, 2
0,
22, 2
5, 2
8 ≤ ≤≤≤
0.22
N
/S
N/S
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 4
40
≥ ≥≥≥ 4
00
N/S
≥ ≥≥≥
14
≥ ≥≥≥ 2
,5
≥ ≥≥≥ 1
,05
I.I.
4. I
SO 6
935-
2 (r
ibbe
d re
info
rcin
g ba
rs)
RB
400W
≤ ≤≤≤
0.22
≤ ≤≤≤
1.60
≤ ≤≤≤
0.60
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 4
40
≥ ≥≥≥ 4
00
N/S
≥ ≥≥≥
14
≥ ≥≥≥ 2
,5
≥ ≥≥≥ 1
,05
RB
500W
8, 1
0, 1
2, 1
6,
20, 2
5
≤ ≤≤≤0.
22
≤ ≤≤≤1.
60
≤ ≤≤≤0.
60
≤ ≤≤≤0.
050
≤ ≤≤≤0.
050
N/S
N
/S
N/S
≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.50
≥ ≥≥≥
550
≥ ≥≥≥
500
N
/S
≥ ≥≥≥ 1
4 ≥ ≥≥≥
2,5
≥ ≥≥≥
1,0
5
I.I.
5. E
450
-98
(rib
bed
rein
forc
ing
bars
) A
500N
R
8, 1
0, 1
2, 1
6,
20, 2
5 ≤ ≤≤≤
0.22
N
/S
N/S
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
N/S
≥ ≥≥≥
14
≥ ≥≥≥ 5
≥ ≥≥≥
1,0
8
I.I.
6. E
449
-98
(rib
bed
rein
forc
ing
bars
) A
400N
R
8, 1
0, 1
2, 1
6,
20, 2
5 ≤ ≤≤≤
0.22
N
/S
N/S
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 4
60
≥ ≥≥≥ 4
00
N/S
≥ ≥≥≥
14
≥ ≥≥≥ 5
≥ ≥≥≥
1,0
8
I.I.
7. S
FS
1215
-96
(rib
bed
rein
forc
ing
bars
) A
500H
W
8, 1
0, 1
2, 1
4,
16, 2
0, 2
5 ≤ ≤≤≤
0.20
≤ ≤≤≤
1.60
0.
15…
0.
55
≤ ≤≤≤0.
060
≤ ≤≤≤0.
050
N/S
N
/S
N/S
≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.50
≥ ≥≥≥
550
≥ ≥≥≥
500
≥ ≥≥≥
12
N/S
N
/S
N/S
Сeq
= C
+ M
n/6
+ (C
r +
Mo
+ V
)/5
+ (C
u +
Ni)
/15
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in le
ngth
s
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Stee
l gra
de
Nom
inal
diam
eter
2)
C
M
n Si
P
S Cr
Ni
Cu
N
Сeq
σв,
N/m
m2
σт,
Н/мм
2 δ 1
0,
%
δ 5,
%
Agt
, %
σв/
σт
1
2 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
18
I.I.
8. G
OST
578
1-82
(pla
in r
ound
and
rib
bed
rein
forc
ing
bars
, che
mic
al c
ompo
siti
on fo
r St
3 sp
and
St5
sp to
GO
ST 3
80-9
4)
А24
0 (A
I)
St3s
p 0.
14-
0.22
0.
40-
0.65
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 N
/S
≥ ≥≥≥ 3
73
≥ ≥≥≥ 2
35
N/S
≥ ≥≥≥
25
N/S
N
/S
A30
0 (A
II)
St5s
p 0.
28-
0.37
0.
50-
0.80
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 N
/S
≥ ≥≥≥ 4
90
≥ ≥≥≥ 2
95
N/S
≥ ≥≥≥
19
N/S
N
/S
A40
0 (A
III)
35
GS
8, 1
0, 1
2,
14, 1
6, 1
8,
20, 2
2, 2
5,
28
0.30
-0.
37
0.80
-1.
20
0.60
-0.
90
≤ ≤≤≤0.
040
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
N/S
≤ ≤≤≤
0.6
2 ≥ ≥≥≥
590
≥ ≥≥≥
390
N
/S
≥ ≥≥≥ 1
4 N
/S
N/S
Сeq
= C
+ M
n/6
+ Si
/10
I.I.
9. S
TO
ASC
hM 7
-93
(rib
bed
rein
forc
ing
bars
) A
400C
≤ ≤≤≤
0.22
≤ ≤≤≤
1.60
≤ ≤≤≤
0.90
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤ 0
.50
≥ ≥≥≥ 5
00
≥ ≥≥≥ 4
00
N/S
≥ ≥≥≥
16
N/S
≥ ≥≥≥
1,0
5
A50
0C
≤ ≤≤≤0.
22
≤ ≤≤≤1.
60
≤ ≤≤≤0.
90
≤ ≤≤≤0.
050
≤ ≤≤≤0.
050
N/S
N
/S
N/S
≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.5
0 ≥ ≥≥≥
600
≥ ≥≥≥
500
N
/S
≥ ≥≥≥ 1
4 N
/S
≥ ≥≥≥ 1
,05
A60
0C
8, 1
0, 1
2,
14, 1
6, 1
8,
20, 2
2, 2
5,
28
≤ ≤≤≤0.
28
≤ ≤≤≤1.
60
≤ ≤≤≤1.
00
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
N/S
N
/S
N/S
≤ ≤≤≤
0.01
0 ≤ ≤≤≤
0.6
5 ≥ ≥≥≥
740
≥ ≥≥≥
600
N
/S
≥ ≥≥≥ 1
2 N
/S
≥ ≥≥≥ 1
,05
Сeq
= C
+ M
n/6
+ (C
r +
Mo
+ V
)/5
+ (C
u +
Ni)
/15
I.I.
10. D
STU
376
0-98
(pla
in a
nd r
ibbe
d re
info
rcin
g ba
rs)
А24
0С
≤ ≤≤≤0.
22
N/S
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
0.30
…
0.52
≥ ≥≥≥
370
≥ ≥≥≥
240
N
/S
≥ ≥≥≥ 2
5 N
/S
≥ ≥≥≥ 1
,05
A30
0C
≤ ≤≤≤0.
22
N/S
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
0.30
…
0.52
≥ ≥≥≥
490
≥ ≥≥≥
290
N
/S
≥ ≥≥≥ 1
9 ≥ ≥≥≥
2,5
≥ ≥≥≥
1,0
5
A40
0C
≤ ≤≤≤0.
22
N/S
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
0.30
…
0.52
≥ ≥≥≥
500
≥ ≥≥≥
400
N
/S
≥ ≥≥≥ 1
6 ≥ ≥≥≥
2,5
≥ ≥≥≥
1,0
5
A50
0C
≤ ≤≤≤0.
22
N/S
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
0.35
…
0.52
≥ ≥≥≥
600
≥ ≥≥≥
500
N
/S
≥ ≥≥≥ 1
4 ≥ ≥≥≥
2,5
≥ ≥≥≥
1,0
5
A60
0C
8, 1
0, 1
2,
14, 1
6, 1
8,
20, 2
2, 2
5,
28
≤ ≤≤≤0.
28
≤ ≤≤≤1.
60
≤ ≤≤≤1.
00
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
0.40
…
0.65
≥ ≥≥≥
800
≥ ≥≥≥
600
N
/S
≥ ≥≥≥ 1
2 ≥ ≥≥≥
2,5
≥ ≥≥≥
1,0
5
Сeq
= C
+ M
n/6
+ (C
r +
Mo
+ V
)/5
+ (C
u +
Ni)
/15
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in le
ngth
s
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Stee
l gr
ade
Nom
inal
diam
eter
2)
C
M
n Si
P
S Cr
Ni
Cu
N
Сeq
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
δ 5
, %
δр
, %
σв/
σт
1
2 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
18
I.I.
11. T
U U
14-
4-49
0-20
00 (p
lain
rou
nd a
nd r
ibbe
d re
info
rcin
g ba
rs)
А24
0С
0,14
-0,
27
0,40
-0,
70
0,15
-0,
50
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
45
≤ ≤≤≤0.
40
≤ ≤≤≤0.
45
N/S
≤ ≤≤≤
0.48
≥ ≥≥≥
375
≥ ≥≥≥
235
≥ ≥≥≥
18
N/S
N
/S
N/S
Аt4
20С
0,
28-
0,32
0,
80-
1,50
0,
15-
0,50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
≤ ≤≤≤0.
62
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
20
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt4
20С
0,
14-
0,26
1,
00-
1,50
0,
60-
0,95
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
≤ ≤≤≤0.
62
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
20
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt4
20С
0,
15-
0,25
0,
60-
1,00
0,
15-
0,50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
≤ ≤≤≤0.
62
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
20
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
А40
0С
0,32
-0,
38
0,80
-1,
20
0,15
-0,
50
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
45
≤ ≤≤≤0.
40
≤ ≤≤≤0.
45
N/S
≤ ≤≤≤
0.62
≥ ≥≥≥
540
≥ ≥≥≥
390
≥ ≥≥≥
11
N/S
N
/S
N/S
А40
0С
0,20
-0,
29
1,20
-1,
60
≤ ≤≤≤0.
15
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
45
≤ ≤≤≤0.
40
≤ ≤≤≤0.
45
N/S
≤ ≤≤≤
0.62
≥ ≥≥≥
540
≥ ≥≥≥
390
≥ ≥≥≥
11
N/S
N
/S
N/S
Аt4
40С
0,
25-
0,32
0,
50-
0,90
0,
15-
0,50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
0.35
-0.
57
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
40
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt4
40С
0,
32-
0,37
0,
50-
0,80
0,
15-
0,50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
0.35
-0.
57
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
40
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt5
00С
0,
14-
0,26
0,
80-
1,50
0,
15-
0,50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
0.35
-0.
57
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt5
00С
0,
32-
0,37
0,
50-
0,80
0,
15-
0,50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
0.35
-0.
57
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt6
00С
0,
14-
0,26
0,
80-
1,50
0,
15-
0,50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
0.35
-0.
57
≥ ≥≥≥ 7
00
≥ ≥≥≥ 6
00
≥ ≥≥≥ 1
0 N
/S
≥ ≥≥≥ 4
N
/S
Аt6
00С
8, 1
0, 1
2, 1
4,
16, 1
8, 2
0,
22, 2
5, 2
8
0,32
-0,
37
0,50
-0,
80
0,15
-0,
50
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
45
≤ ≤≤≤0.
40
≤ ≤≤≤0.
45
N/S
0.
35-
0.57
≥ ≥≥≥
700
≥ ≥≥≥
600
≥ ≥≥≥
10
N/S
≥ ≥≥≥
4
N/S
Сeq
= C
+ M
n/8
+ C
r/5
+ C
u/23
+ N
i/40
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in le
ngth
s
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Stee
l gr
ade
Nom
inal
di
amet
er 2)
C
M
n Si
P
S C
r N
i C
u N
С
eq
σв,
kSi
(N/m
m2 )
σт,
kSi
(N/m
m2 )
δ 200
, %
σв/
σт
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
I.
I.12
. AST
M A
615/
A61
5M-9
6a (r
ibbe
d re
info
rcin
g ba
rs)
40/3
00 №
3(1
0), №
4(1
3),
№ 5
(16)
, № 6
(18)
N
/S
N/S
N
/S
≤ ≤≤≤0.
060
N/S
N
/S
N/S
N
/S
N/S
N
/S
≥ ≥≥≥ 7
0 (5
00)
≥ ≥≥≥ 4
0 (3
00)
11 (№
3)
12 (№
4-6)
N
/S
60/4
20 №
3(1
0), №
4(1
3),
№ 5
(16)
, № 6
(18)
, №
7(2
2), №
8 (2
5)
N/S
N
/S
N/S
≤ ≤≤≤
0.06
0 N
/S
N/S
N
/S
N/S
N
/S
N/S
≥ ≥≥≥
90
(620
) ≥ ≥≥≥
60
(420
) 9
(№ 3
-6)
8 (№
7-8)
7
(№ 9
-11)
N/S
75/5
20 №
6(1
8), №
7(2
2),
№ 8
(25)
N
/S
N/S
N
/S
≤ ≤≤≤0.
060
N/S
N
/S
N/S
N
/S
N/S
N
/S
≥ ≥≥≥ 1
00
(690
) ≥ ≥≥≥
75
(520
) 7
(№ 6
-8)
6 (№
9-1
1)
N/S
I.I.
13. A
STM
A70
6/A
706M
-96
(rib
bed
rein
forc
ing
bars
) ≤ ≤≤≤
0.30
≤ ≤≤≤
1.50
≤ ≤≤≤
0.50
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.04
5 N
/S
N/S
N
/S
N/S
60
/420
№
3(1
0), №
4(1
3),
№ 5
(16)
, №
6(19
), №
7(2
2), №
8(
25)
Сeq
= C
+ M
n/6
+ C
u/40
+ N
i/20
+ C
r/10
– M
o/50
– V
/10
≤ ≤≤≤0.
55
≥ ≥≥≥ 8
0 (5
50)
60-7
8 (4
20-5
40)
12
(№3-
6)
14
(№7-
11)
≥ ≥≥≥ 1
,15
I.I.
14. C
AN
/CSA
– G
30.1
8-M
92 (r
ibbe
d re
info
rcin
g ba
rs)
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel
grad
e N
omin
al
diam
eter
2)
C
Mn
Si
P S
Cr
Ni
Cu
N
Сeq
σв,
N/m
m2
σт,
N/m
m2
δ 200
, %
σв/
σт
300R
№
10,
№ 1
5 N
/S
N/S
N
/S
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
N/S
N
/S
≥ ≥≥≥ 4
05
≥ ≥≥≥ 3
00
11 (№
10)
12
(№ 1
5)
≥ ≥≥≥ 1
,15
400R
N
/S
N/S
N
/S
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
N/S
N
/S
≥ ≥≥≥ 5
40
≥ ≥≥≥ 4
00
10 (№
10-2
0)
9 (№
25)
8
(№ 3
0-35
)
≥ ≥≥≥ 1
,15
500R
№ 1
0, №
15,
№
20, №
25,
№ 3
0
N/S
N
/S
N/S
≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
N
/S
N/S
≥ ≥≥≥
675
≥ ≥≥≥
500
9
(№10
-20)
8
(№ 2
5)
7 (№
30-
35)
≥ ≥≥≥ 1
,15
400W
≤ ≤≤≤
0.30
≤ ≤≤≤
1.60
≤ ≤≤≤
0.50
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.04
5 N
/S
N/S
N
/S
N/S
≥ ≥≥≥
540
40
0-52
5 13
(№10
-25)
12
(№30
-35)
≥ ≥≥≥
1,1
5
500W
№ 1
0, №
15,
№
20, №
25,
№ 3
0 С
eq =
C +
Mn/
6 +
Cu/
40 +
Ni/2
0 +
Cr/
10 –
Mo/
50 –
V/1
0
≤ ≤≤≤ 0
.55
≥ ≥≥≥ 6
25
500-
625
12 (№
10-2
5)
10 (№
30-3
5)
≥ ≥≥≥ 1
,15
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in le
ngth
s
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel
grad
e N
omin
al
di
amet
er 2)
C
M
n Si
P
S C
r N
i C
u N
С
eq
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
δ 5
, %
δр
, %
σв/
σт
1
2 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
18
I.I.
15. G
OST
108
84-9
4 (r
ibbe
d re
info
rcin
g ba
rs)
Аt4
00С
≤ ≤≤≤
0.24
0.
5-1.
5 ≤ ≤≤≤
0.65
≤ ≤≤≤
0.04
5 ≤ ≤≤≤
0.04
5 N
/S
N/S
N
/S
N/S
≤ ≤≤≤
0.3
2 ≥ ≥≥≥
373
≥ ≥≥≥
235
N
/S
≥ ≥≥≥ 1
6 N
/S
N/S
A
t500С
8,
10,
12,
14,
16
, 18,
20,
22
, 25,
28
≤ ≤≤≤
0.32
0.
5-1.
5 ≤ ≤≤≤
0.65
≤ ≤≤≤
0.04
5 ≤ ≤≤≤
0.04
5 N
/S
N/S
N
/S
N/S
≤ ≤≤≤
0.4
0 ≥ ≥≥≥
490
≥ ≥≥≥
295
N
/S
≥ ≥≥≥ 1
4 N
/S
N/S
At6
00C
10
, 12,
14,
16
, 18,
20,
22
, 25,
28
≤ ≤≤≤0.
32
0.6-
2.3
0.6-
2.4
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
N/S
N
/S
N/S
N
/S
≤ ≤≤≤ 0
.44
≥ ≥≥≥ 4
41
≥ ≥≥≥ 2
95
N/S
≥ ≥≥≥
12
≥ ≥≥≥ 4
.0
N/S
At8
00
10, 1
2, 1
4,
16, 1
8 ≤ ≤≤≤
0.32
0.
6-2.
3 0.
6-2.
4 ≤ ≤≤≤
0.04
5 ≤ ≤≤≤
0.04
5 N
/S
N/S
N
/S
N/S
N
/S
≥ ≥≥≥
1000
≥ ≥≥≥
800
N
/S
≥ ≥≥≥ 8
≥ ≥≥≥
2.0
N
/S
Сeq
= C
+ M
n/8
+ Si
/7
I.I.
16. T
U 1
4-1-
5454
-200
2 (r
ibbe
d re
info
rcin
g ba
rs)
At8
00
10, 1
2, 1
4,
16, 1
8 ≤ ≤≤≤
0.32
0.
6-2.
3 0.
6-2.
4 ≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
5 N
/S
≥ ≥≥≥
1000
≥ ≥≥≥
800
N
/S
≥ ≥≥≥ 8
≥ ≥≥≥
2.0
N
/S
Not
es:
1. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. T
he m
ill m
anuf
actu
res
rein
forc
ing
bars
bel
ongi
ng to
cla
sses
of s
tren
gth
240,
300
, 400
, 500
and
600
in s
izes
with
in th
e ra
nge
spec
ifie
d in
the
stan
dard
docu
men
tatio
n to
the
prod
uct,
thou
gh a
max
imum
nom
inal
dia
met
er b
eing
40
mm
. Rei
nfor
cing
bar
s, G
rade
s 60
and
75,
to A
STM
A70
6/A
706M
-96
and
AST
M
A61
5/A
615M
-96a
are
man
ufac
ture
d in
nom
inal
siz
e of
up
to N
o.11
/36m
m; r
einf
orci
ng b
ars
of g
rade
s 40
0R/W
…50
0R/W
to C
AN
/CSA
– G
30.1
8-M
92 –
in s
izes
with
in th
e ra
nge
spec
ifie
d in
the
stan
dard
doc
umen
tatio
n to
the
prod
uct,
thou
gh n
ot b
igge
r tha
n 30
mm
.
3. R
ecom
men
ded
by If
Bt C
ertif
icat
ion
Bod
y (G
erm
any)
.
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in c
oils
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Stee
l gr
ade
Nom
inal
diam
eter
C
M
n Si
P
S C
r N
i C
u N
С
eq
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
δ 5
, %
A
gt,
%
σв/
σт
1
2 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
18
I.II
.1. B
S 44
49-9
7 (p
lain
rou
nd a
nd r
ibbe
d re
info
rcin
g ba
rs)
460В
8,
10,
12
≤ ≤≤≤0.
25
N/S
N
/S
≤ ≤≤≤0.
060
≤ ≤≤≤0.
060
N/S
N
/S
N/S
≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.51
N
/S
≥ ≥≥≥ 4
60
N/S
≥ ≥≥≥
14
N/S
≥ ≥≥≥
1,0
8
250
5,5…
14,0
≤ ≤≤≤
0.25
N
/S
N/S
≤ ≤≤≤
0.06
0 ≤ ≤≤≤
0.06
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
42
N/S
≥ ≥≥≥
250
N
/S
≥ ≥≥≥ 2
2 N
/S
≥ ≥≥≥ 1
,15
I.II
.2. E
U 8
0-85
/82-
79 (
ribb
ed r
einf
orci
ng b
ars)
F
eB50
0 ≤ ≤≤≤
0.22
N
/S
N/S
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
N/S
≥ ≥≥≥
12
≥ ≥≥≥ 2
,5
≥ ≥≥≥ 1
,05
FeB
400
8, 1
0, 1
2
≤ ≤≤≤0.
22
N/S
N
/S
≤ ≤≤≤0.
050
≤ ≤≤≤0.
050
N/S
N
/S
N/S
≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.50
≥ ≥≥≥
440
≥ ≥≥≥
400
N
/S
≥ ≥≥≥ 1
4 ≥ ≥≥≥
2,5
≥ ≥≥≥
1,0
5
I.II
.3. I
SO 6
935-
2 (r
ibbe
d re
info
rcin
g ba
rs)
RB
400W
≤ ≤≤≤
0.22
≤ ≤≤≤
1.60
≤ ≤≤≤
0.60
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 4
40
≥ ≥≥≥ 4
00
N/S
≥ ≥≥≥
14
≥ ≥≥≥ 2
,5
≥ ≥≥≥ 1
,05
RB
500W
8, 1
0, 1
2
≤ ≤≤≤0.
22
≤ ≤≤≤1.
60
≤ ≤≤≤0.
60
≤ ≤≤≤0.
050
≤ ≤≤≤0.
050
N/S
N
/S
N/S
≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.50
≥ ≥≥≥
550
≥ ≥≥≥
500
N
/S
≥ ≥≥≥ 1
4 ≥ ≥≥≥
2,5
≥ ≥≥≥
1,0
5
I.II
.4. E
450
-98
(rib
bed
rein
forc
ing
bars
) A
500N
R
8, 1
0, 1
2 ≤ ≤≤≤
0.22
N
/S
N/S
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
N/S
≥ ≥≥≥
14
≥ ≥≥≥ 5
≥ ≥≥≥
1,0
8
I.II
.5. E
449
-98
(rib
bed
rein
forc
ing
bars
) A
400N
R
8, 1
0, 1
2 ≤ ≤≤≤
0.22
N
/S
N/S
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
50
≥ ≥≥≥ 4
60
≥ ≥≥≥ 4
00
N/S
≥ ≥≥≥
14
≥ ≥≥≥ 5
≥ ≥≥≥
1,0
8 I.
II.6
. SF
S 12
15-9
6 (r
ibbe
d re
info
rcin
g ba
rs)
A50
0HW
8,
10,
12
≤ ≤≤≤0.
20
≤ ≤≤≤1.
60
0.15
…
0.55
≤ ≤≤≤
0.06
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤0.
51
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
≥ ≥≥≥ 1
2 N
/S
N/S
N
/S
Сeq
= C
+ M
n/6
+ (C
r +
Mo
+ V
)/5
+ (C
u +
Ni)
/15
Not
es: N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in c
oils
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Stee
l gra
de
Nom
inal
diam
eter
C
M
n Si
P
S Cr
Ni
Cu
N
Сeq
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
δ 5
, %
A
gt,
%
σв/
σт
1
2 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
18
I.II
.7. G
OST
578
1-82
(pla
in r
ound
and
rib
bed
rein
forc
ing
bars
, che
mic
al c
ompo
siti
on fo
r St
3 sp
and
St5
sp to
GO
ST 3
80-9
4)
А24
0 (A
I)
St3s
p 0.
14-
0.22
0.
40-
0.65
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 N
/S
≥ ≥≥≥ 3
73
≥ ≥≥≥ 2
35
N/S
≥ ≥≥≥
25
N/S
N
/S
A30
0 (A
II)
St5s
p 0.
28-
0.37
0.
50-
0.80
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 N
/S
≥ ≥≥≥ 4
90
≥ ≥≥≥ 2
95
N/S
≥ ≥≥≥
19
N/S
N
/S
A40
0 (A
III)
35
GS
8, 1
0, 1
2, 1
4
0.30
-0.
37
0.80
-1.
20
0.60
-0.
90
≤ ≤≤≤0.
040
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
N/S
≤ ≤≤≤
0.6
2 ≥ ≥≥≥
590
≥ ≥≥≥
390
N
/S
≥ ≥≥≥ 1
4 N
/S
N/S
Сeq
= C
+ M
n/6
+ Si
/10
I.II
.8. S
TO
ASC
hM 7
-93
(rib
bed
rein
forc
ing
bars
) A
400C
≤ ≤≤≤
0.22
≤ ≤≤≤
1.60
≤ ≤≤≤
0.90
≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
≤ ≤≤≤0.
012
≤ ≤≤≤ 0
.50
≥ ≥≥≥ 5
00
≥ ≥≥≥ 4
00
N/S
≥ ≥≥≥
16
N/S
≥ ≥≥≥
1,
05
A50
0C
8, 1
0, 1
2
≤ ≤≤≤0.
22
≤ ≤≤≤1.
60
≤ ≤≤≤0.
90
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
N/S
N
/S
N/S
≤ ≤≤≤
0.01
2 0.
35…
0.
52
≥ ≥≥≥ 6
00
≥ ≥≥≥ 5
00
N/S
≥ ≥≥≥
14
N/S
≥ ≥≥≥
1,
05
Сeq
= C
+ M
n/6
+ (C
r +
Mo
+ V
)/5
+ (C
u +
Ni)
/15
I.II
.9. D
STU
376
0-98
(pla
in r
ound
and
rib
bed
rein
forc
ing
bars
) А
240С
≤ ≤≤≤
0.22
N
/S
N/S
≤ ≤≤≤
0.04
5 ≤ ≤≤≤
0.04
5 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 0.
30…
0.
52
≥ ≥≥≥ 4
90
≥ ≥≥≥ 2
90
N/S
≥ ≥≥≥
19
≥ ≥≥≥ 2
,5
N/S
A30
0C
8, 1
0, 1
2, 1
4
≤ ≤≤≤0.
22
N/S
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
0.30
…
0.52
≥ ≥≥≥
490
≥ ≥≥≥
290
N
/S
≥ ≥≥≥ 1
9 ≥ ≥≥≥
2,5
N
/S
A40
0C
≤ ≤≤≤0.
22
N/S
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
0.30
…
0.52
≥ ≥≥≥
500
≥ ≥≥≥
400
N
/S
≥ ≥≥≥ 1
6 ≥ ≥≥≥
2,5
N
/S
A50
0C
8, 1
0, 1
2
≤ ≤≤≤0.
22
N/S
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
0.35
…
0.52
≥ ≥≥≥
600
≥ ≥≥≥
500
N
/S
≥ ≥≥≥ 1
4 ≥ ≥≥≥
2,5
N
/S
Сeq
= C
+ M
n/6
+ (C
r +
Mo
+ V
)/5
+ (C
u +
Ni)
/15
Not
es: N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in c
oils
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Stee
l gr
ade
Nom
inal
diam
eter
1)
C
M
n Si
P
S Cr
Ni
Cu
N
Сeq
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
δ 5
, %
δр
, %
σв/
σт
1
2 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
18
I.II
.10.
TU
U 1
4-4-
490-
2000
(pla
in r
ound
and
rib
bed
rein
forc
ing
bars
) А
240С
0.
14-
0.27
0.
40-
0.70
0.
15-
0.50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
≤ ≤≤≤0.
48
≥ ≥≥≥ 3
75
≥ ≥≥≥ 2
35
≥ ≥≥≥ 1
8 N
/S
N/S
N
/S
Аt4
20С
0.
28-
0.32
0.
80-
1.50
0.
15-
0.50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
≤ ≤≤≤0.
62
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
20
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt4
20С
0.
14-
0.26
1.
00-
1.50
0.
60-
0.95
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
≤ ≤≤≤0.
62
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
20
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt4
20С
0.
15-
0.25
0.
60-
1.00
0.
15-
0.50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
≤ ≤≤≤0.
62
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
20
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
А40
0С
0.32
-0.
38
0.80
-1.
20
0.15
-0.
50
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
45
≤ ≤≤≤0.
40
≤ ≤≤≤0.
45
N/S
≤ ≤≤≤
0.62
≥ ≥≥≥
540
≥ ≥≥≥
390
≥ ≥≥≥
11
N/S
N
/S
N/S
А40
0С
0.20
-0.
29
1.20
-1.
60
≤ ≤≤≤0.
15
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
45
≤ ≤≤≤0.
40
≤ ≤≤≤0.
45
N/S
≤ ≤≤≤
0.62
≥ ≥≥≥
540
≥ ≥≥≥
390
≥ ≥≥≥
11
N/S
N
/S
N/S
Аt4
40С
0.
25-
0.32
0.
50-
0.90
0.
15-
0.50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
0.35
-0.
57
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
40
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt4
40С
0.
32-
0.37
0.
50-
0.80
0.
15-
0.50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
0.35
-0.
57
≥ ≥≥≥ 5
30
≥ ≥≥≥ 4
40
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt5
00С
0.
14-
0.26
0.
80-
1.50
0.
15-
0.50
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.45
≤ ≤≤≤
0.40
≤ ≤≤≤
0.45
N
/S
0.35
-0.
57
≥ ≥≥≥ 5
50
≥ ≥≥≥ 5
00
≥ ≥≥≥ 1
0 N
/S
N/S
N
/S
Аt5
00С
8, 1
0, 1
2
0.32
-0.
37
0.50
-0.
80
0.15
-0.
50
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
45
≤ ≤≤≤0.
40
≤ ≤≤≤0.
45
N/S
0.
35-
0.57
≥ ≥≥≥
550
≥ ≥≥≥
500
≥ ≥≥≥
10
N/S
N
/S
N/S
Not
es: N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
Stee
l Pro
duct
s Sp
ecif
icat
ions
I. R
einf
orci
ng s
teel
bar
s/I.I
. Rei
nfor
cing
ste
el b
ars
in c
oils
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Stee
l gr
ade
Nom
inal
diam
eter
C
M
n Si
P
S Cr
Ni
Cu
N
Сeq
σв,
kSi
(N/m
m2 )
σт,
kSi
(N/m
m2 )
δ 200
, %
σв/
σт
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
I.
II.1
1. A
STM
A61
5/A
615M
-96a
(rib
bed
rein
forc
ing
bars
) 40
/300
N
/S
N/S
N
/S
≤ ≤≤≤0.
060
N/S
N
/S
N/S
N
/S
N/S
N
/S
≥ ≥≥≥ 7
0 (5
00)
≥ ≥≥≥ 4
0 (3
00)
11
N/S
60/4
20
№ 3
(10)
, № 4
(13)
N/S
N
/S
N/S
≤ ≤≤≤
0.06
0 N
/S
N/S
N
/S
N/S
N
/S
N/S
≥ ≥≥≥
90
(620
) ≥ ≥≥≥
60
(420
) 9
N
/S
I.II
.12.
AST
M A
706/
A70
6M-9
6 (r
ibbe
d re
info
rcin
g ba
rs)
≤ ≤≤≤0.
30
≤ ≤≤≤1.
50
≤ ≤≤≤0.
50
≤ ≤≤≤0.
035
≤ ≤≤≤0.
045
N/S
N
/S
N/S
N
/S
60/4
20 №
3(1
0), №
4(1
3)
Сeq
= C
+ M
n/6
+ C
u/40
+ N
i/20
+ C
r/10
– M
o/50
– V
/10
≤ ≤≤≤0.
55
≥ ≥≥≥ 8
0 (5
50)
60-7
8 (4
20-5
40)
12
≥ ≥≥≥ 1
,15
I.II
.13.
CA
N/C
SA –
G30
.18-
M92
(rib
bed
rein
forc
ing
bars
) M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
Механические свойства
St
eel
grad
e N
omin
al
di
amet
er
C
Mn
Si
P S
Cr
Ni
Cu
N
Сeq
σв,
N/m
m2
σт,
N/m
m2
δ 200
, %
σв/
σт
300R
N
/S
N/S
N
/S
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
N/S
N
/S
≥ ≥≥≥ 4
05
≥ ≥≥≥ 3
00
11
≥ ≥≥≥ 1
,15
400R
N
/S
N/S
N
/S
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
N/S
N
/S
≥ ≥≥≥ 5
40
≥ ≥≥≥ 4
00
10
≥ ≥≥≥ 1
,15
500R
№ 1
0
N/S
N
/S
N/S
≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
N
/S
N/S
≥ ≥≥≥
675
≥ ≥≥≥
500
9
≥ ≥≥≥
1,1
5
400W
≤ ≤≤≤
0.30
≤ ≤≤≤
1.60
≤ ≤≤≤
0.50
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.04
5 N
/S
N/S
N
/S
N/S
≥ ≥≥≥
540
40
0-52
5 13
≥ ≥≥≥
1,1
5
500W
№ 1
0
Сeq
= C
+ M
n/6
+ C
u/40
+ N
i/20
+ C
r/10
– M
o/50
– V
/10
≤ ≤≤≤0.
55
≥ ≥≥≥ 6
25
500-
625
12
≥ ≥≥≥ 1
,15
Not
es: N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
Steel Products Specifications II. Profiled bars
Steel profiled bars are manufactured in lengths from 6 m to 12 m.
The range of profiled bars includes the following products:
- equal side hot rolled steel angle bars to GOST 8509-93; DIN 1028-76 in sizes: 25×25×4; 30×30×4;
32×32×4; 35×35×4; 35×35×5; 40×40×4; 40×40×5; 45×45×4; 45×45×5; 50×50×4; 50×50×5;
50×50×6.
Steel profiled bars are manufactured hot rolled with the use of an accelerated water cooling and
without any special cooling methods.
The bundle weight is up to 10.
The list of referenced national standards included in the present part of the specifications:
GOST 535-88. MERCHANT AND PROFILED CARBON STEEL ROLLED BARS
GOST 27772-88. STRUCTURAL STEEL BARS . GENERAL TECHNICAL
CONDITIONS
GOST 19281-89. HIGHER STRENGTH STEEL ROLLED PRODUCTS
DIN 17100-80. STRUCTURAL STEELS OF GENERAL APPLICATION.
QUALITY NORMS.
DIN/BS EN 10025. HOT ROLLED NON-ALLOYED STRUCTURAL STEEL
PRODUCTS
Stee
l Pro
duct
s Sp
ecif
icat
ions
II. P
rofi
led
bars
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
M
echa
nica
l pro
pert
ies
Impa
ct s
tren
gth
KC
V, J
/cm
2 , m
inim
um
σт,
N/m
m2
δ 5, %
te
mpe
ratu
re, °С
Stee
l gr
ade
C
Mn
Si
P S
Cr
Ni
Cu
N
σв,
N
/mm
2 N
ot le
ss
+20
-20
Aft
er
agei
ng
II. 1
. GO
ST 5
35-8
8: S
t0, S
t3sp
, St3
ps, S
t4sp
, St4
ps, S
t5sp
, St5
ps, S
t6sp
, St6
ps. C
hem
ical
com
posi
tion
to G
OST
380
-94.
St
0 ≤ ≤≤≤
0.23
-
- ≤ ≤≤≤
0.07
0 ≤ ≤≤≤
0.06
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 N
ot le
ss
300
- 18
-
- -
St3p
s 0.
14-
0.22
0.
40-
0.65
0.
05-
0.15
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 37
0-48
0 24
5 26
10
8 49
49
St3s
p 0.
14-
0.22
0.
40-
0.65
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 38
0-49
0 25
5 26
10
8 49
49
St4p
s 0.
18-
0.27
0.
40-
0.70
0.
05-
0.15
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 41
0-53
0 26
5 24
98
-
-
St4s
p 0.
18-
0.27
0.
40-
0.70
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 41
0-53
0 26
5 24
98
-
-
St5p
s 0.
28-
0.37
0.
50-
0.80
0.
05-
0.15
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 49
0-63
0 28
5 20
-
- -
St5s
p 0.
28-
0.37
0.
50-
0.80
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 49
0-63
0 29
5 20
-
- -
St6p
s 0.
38-
0.49
0.
50-
0.80
0.
05-
0.15
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 N
ot le
ss
590
315
15
- -
-
St6s
p 0.
38-
0.49
0.
50-
0.80
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 N
ot le
ss
590
315
15
- -
-
Stee
l Pro
duct
s Sp
ecif
icat
ions
II. P
rofi
led
bars
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s,
min
imum
Im
pact
str
engt
h K
CU
, J/c
m2 ,
min
imum
2
tem
pera
ture
, °С
Stee
l gr
ade
C
Mn
Si
P S
Cr
Ni
Cu
N
σв,
N/m
m2
σт,
N/m
m2
δ 5, %
-2
0 -4
0 -7
0 A
fter
ag
eing
II
.2. G
OST
277
72-8
8: С
235,
С24
5, С
255,
С27
5, С
285,
С34
5, С
375.
С
235
≤ ≤≤≤0.
22
≤ ≤≤≤0.
60
≤ ≤≤≤0.
05
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
360
235
26
- -
- -
С24
5 ≤ ≤≤≤
0.22
≤ ≤≤≤
0.65
0.
05-
0.15
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 37
0 24
5 25
-
- -
29
С25
5 ≤ ≤≤≤
0.22
≤ ≤≤≤
0.65
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 38
0 25
5 25
29
-
- 29
С27
5 ≤ ≤≤≤
0.22
≤ ≤≤≤
0.65
0.
05-
0.15
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 39
0 27
5 24
-
- -
29
С28
5 ≤ ≤≤≤
0.22
≤ ≤≤≤
0.65
0.
15-
0.30
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 40
0 28
5 24
29
-
- 29
С34
5 ≤ ≤≤≤
0.15
1.
30-
1.70
≤ ≤≤≤
0.80
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 49
0 34
5 21
-
39
34
29
С34
5Т1
≤ ≤≤≤0.
22
≤ ≤≤≤0.
65
0.05
-0.
15
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
490
345
21
- 39
34
29
С34
5Т1
≤ ≤≤≤0.
22
0.80
-1.
10
0.15
-0.
30
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
490
345
21
- 39
34
29
С37
5 ≤ ≤≤≤
0.15
1.
30-
1.70
≤ ≤≤≤
0.80
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.05
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2 51
8 37
5 20
-
39
34
29
С37
5Т1
≤ ≤≤≤0.
22
≤ ≤≤≤0.
65
0.05
-0.
15
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
518
375
20
- 39
34
29
С37
5Т1
≤ ≤≤≤0.
20
0.80
-1.
10
0.15
-0.
30
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
518
375
20
- 39
34
29
Not
es:
1. Т
- In
-lin
e he
at tr
eatm
ent (
Ter
mex
tech
nolo
gy) ;
1 –
alte
rnat
ive
chem
ical
ana
lysi
s .
2. T
he im
pact
str
engt
h is
spe
cifi
ed fo
r rol
led
prod
ucts
with
thic
knes
s of
5 m
m a
nd o
ver.
For p
rodu
cts
of 5
mm
thic
k th
e im
pact
str
engt
h to
be
not l
ess
than
49.
Stee
l Pro
duct
s Sp
ecif
icat
ions
II. P
rofi
led
bars
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Stee
l gr
ade
C
Mn
Si
P S
Cr
Ni
Cu
N
II. 3
. GO
ST 1
9281
-89:
ste
el g
rade
s 09
G2,
12G
S; 1
6GS,
14G
2, 1
7GS,
09G
2S.
09G
2 ≤ ≤≤≤
0.12
1.
40-
1.80
0.
17-
0.37
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2
12G
S 0.
09-
0.15
0.
80-
1.20
0.
50-
0.80
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.30
≤ ≤≤≤
0.01
2
09G
2S
≤ ≤≤≤0.
12
1.30
-1.
70
0.50
-0.
80
≤ ≤≤≤0.
035
≤ ≤≤≤0.
040
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
30
≤ ≤≤≤0.
012
Mec
hani
cal p
rope
rtie
s,
min
imum
Im
pact
str
engt
h K
CU
, J/c
m2 ,
min
imum
2 Im
pact
str
engt
h K
CV
, J/
cm2 , m
inim
um2
tem
pera
ture
, °С
te
mpe
ratu
re, °С
Cla
ss o
f st
reng
th
σв,
N/m
m2
σт,
N/m
m2
δ 5, %
-2
0 -4
0 -7
0 af
ter
agei
ng
0 -2
0 G
OST
192
81-8
9: c
lass
of s
tren
gth
265,
295
, 325
, 345
, 375
, 390
. 26
5 43
0 26
5 98
-
- 29
-
- 29
5 43
0 29
5 98
39
29
29
-
- 32
5 45
0 32
5 64
34
34
29
34
34
34
5 48
0 34
5 64
39
29
29
40
40
37
5 51
0 37
5
21
- 39
-
29
- -
390
530
390
18
- 39
34
29
-
-
Steel Products Specifications III. Wire rod
Mass fraction of chemical elements, % Mechanical properties Impact strength
σт, N/mm2 δ5, % temperatureC Mn Si P S Cr Ni Cu N1 σв,
N/mm2 not less +20 II. 4. DIN 17100
≤≤≤≤0.17 ≤≤≤≤1.60 ≤≤≤≤0.55 ≤≤≤≤0.050 ≤≤≤≤0.050 N/S N/S N/S ≤≤≤≤0.009 340-470 235 26 27 ≤≤≤≤0.21 ≤≤≤≤1.60 ≤≤≤≤0.55 ≤≤≤≤0.050 ≤≤≤≤0.050 N/S N/S N/S ≤≤≤≤0.009 410-540 275 22 27 ≤≤≤≤0.30 ≤≤≤≤1.60 ≤≤≤≤0.55 ≤≤≤≤0.050 ≤≤≤≤0.050 N/S N/S N/S ≤≤≤≤0.009 470-610 295 20 -
II. 5. BS EN10025-93 ≤≤≤≤0.17 ≤≤≤≤1.40 N/S ≤≤≤≤0.045 ≤≤≤≤0.045 N/S N/S N/S ≤≤≤≤0.009 340-470 235 26 27 ≤≤≤≤0.21 ≤≤≤≤1.50 N/S ≤≤≤≤0.045 ≤≤≤≤0.045 N/S N/S N/S ≤≤≤≤0.009 410-560 275 22 27 ≤≤≤≤0.24 ≤≤≤≤1.60 ≤≤≤≤0.55 ≤≤≤≤0.045 ≤≤≤≤0.045 N/S N/S N/S ≤≤≤≤0.009 490-630 355 22 27
Notes:
1. – Reduction of phosphorous by every 0,005 % allows for the increase of nitrogen by
0,001% but total nitrogen shall not exceeding 0,012%.
2. N/S –not specified in the standard documentation and remains at the producer’s
discretion.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.I.
Low
car
bon
wir
e ro
d
III.
I.1.
AST
M A
510;
AST
M A
510M
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
5)
Mec
hani
cal p
rope
rtie
s5)
Stee
l gr
ade
C
M
n Si
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
4)
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
10
05
≤ ≤≤≤
0.06
≤ ≤≤≤
0.35
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
N
/S
1005
no
В
≤0.
06
≤0.
35
≤0.
10
≤0.
030
≤0.
015
≤0.
15
≤0.
20
≤0.
30
≤0.
012
no
В
≤ 4
10
- δ 5
≥35
≥
72
Dir
ect d
raw
ing
from
∅
5.5
...6.
5 to
∅ 1
.0 m
m
В=0
.003
...
0.0
08
≤0.
06
≤0.
35
≤0.
10
≤0.
030
≤0.
015
≤0.
15
≤0.
20
≤0.
30
≤0.
012
В
=0.0
03
... 0
.008
≤
385
-
δ 5 ≥
38
≥ 7
6 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 0
.7(0
.5) m
m
1006
≤ ≤≤≤0.
08
0.25
...
0.40
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1006
no
В
≤0.
08
0.25
...
0.40
≤
0.15
≤
0.03
0 ≤
0.01
5 ≤
0.30
≤
0.30
≤
0.35
≤0.
012
no
В
≤ 4
40
- δ 5
≥35
≥
70
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.2
mm
В
=0.0
03
... 0
.008
≤
0.08
0.
25...
0.
40
≤0.
15
≤0.
030
≤0.
015
≤0.
30
≤0.
30
≤0.
35
≤
0.01
2
В=0
.003
...
0.0
08
≤ 4
20
- δ 5
≥ 3
6 ≥
74
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
(0.7
) mm
10
08
≤ ≤≤≤
0.10
0.
30...
0.
50
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1008
no
В
0.05
...0.
10
0.
30...
0.
50
≤0.
15
≤0.
030
≤0.
015
≤0.
30
≤0.
30
≤0.
35
≤
0.01
2
no В
≤
460
-
δ 5≥
35
≥ 7
0 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 1
.4 m
m
В=0
.003
...
0.0
08
0.05
...0.
10
0.
30...
0.
50
≤0.
15
≤0.
030
≤0.
015
≤0.
30
≤0.
30
≤0.
35
≤
0.01
2
В=0
.003
...
0.0
08
≤ 4
40
- δ 5
≥ 3
6 ≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.2
(1.0
) mm
10
10
1011
0.
08...
0.
13
0.30
...0.
60
0.60
...0.
90
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1010
10
11
0.08
...
0.13
0.
30...
0.60
0.
60...
0.90
0.10
...0.
20
0.15
...0.
25
≤0.
030
≤0.
015
≤0.
30
≤0.
30
≤0.
35
≤
0.01
2 ≤
0.01
0 -
≤ 4
90
≤ 5
10
- δ 5
≥34
δ 5
≥33
≥
68
≥ 6
6 -
1012
10
13
0.10
...0.
15
0.11
...0.
16
0.30
...
0.60
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1012
10
13
0.10
...0.
15
0.11
...0.
16 0.
30...
0.60
0.1
0...0
.20
≤
0.03
0 ≤
0.01
5 ≤
0.30
≤
0.30
≤
0.35
≤
0.01
2 ≤
0.01
0 -
≤ 5
20
- δ 5
≥34
≥
64
-
Ste
el P
rodu
cts
Spec
ific
atio
ns
II
I. W
ire
rod
/III
.I. L
ow c
arbo
n w
ire
rod
III.
I.1.
AST
M A
510;
AST
M A
510M
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
5)
Mec
hani
cal p
rope
rtie
s 5)
Stee
l gr
ade
C
M
n Si
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
4)
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
10
15
1016
0.
13...
0.18
0.3
0...0
.60
0.60
...0.
90
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1015
10
16
0.13
...0.
18 0
.30.
..0.5
0 0.
60...
0.80
0.10
...0.
20
0.15
...0.
25 ≤
0.03
0 ≤
0.01
5 ≤
0.30
≤
0.30
≤
0.35
≤
0.01
2
- ≤
550
≤
560
-
δ 5≥
33
δ 5≥
32
≥ 6
4 ≥
64
-
1017
10
18
1019
0.15
...0.
20 0
.30.
..0.6
0 0.
60...
0.90
0.
70...
1.00
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1017
10
18
1019
0.15
...0.
20 0
.45.
..0.6
0 0.
60...
0.80
0.
80...
1.00
0.15
...0.
25 ≤
0.03
0 ≤
0.01
5 ≤
0.30
≤
0.30
≤
0.35
≤
0.01
2
- ≤
570
≤
580
≤
590
- δ 5
≥30
δ 5
≥30
δ 5
≥30
≥ 6
0 ≥
60
≥ 6
0
-
Not
es:
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. If
nec
essa
ry, t
he c
onte
nt o
f Si
may
be
eith
er in
con
form
ity w
ith th
e St
anda
rd S
peci
fica
tion,
and
par
ticul
arly
les
s th
an 0
.10
%; 0
.07.
..0.1
5 %
; 0.1
0...0
.20
%; 0
.15.
..0.3
0 %
; 0.2
0...0
.40
%, o
r as
requ
este
d by
the
cust
omer
, with
Mn/
Si ra
tio b
eing
at l
east
1:3
; th
e pr
esen
t Spe
cifi
catio
ns g
ive
refe
renc
e va
lues
that
may
be
mod
ifie
d up
on a
gree
men
t with
the
cust
omer
.
3. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
4. A
STM
spe
cifi
es В
of u
p to
0.0
03 %
to b
e ad
ded
to im
prov
e th
e ha
rdne
ss o
f med
ium
car
bon
stee
ls,
offe
rs to
add
B to
impr
ove
duct
ility
and
def
orm
abili
ty
of w
ire
rod/
wir
e.
5. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
Ste
el P
rodu
cts
Spec
ific
atio
ns
II
I. W
ire
rod
/III
.I. L
ow c
arbo
n w
ire
rod
III.
I.2.
EN
100
16, P
art 2
M
ass
frac
tion
of c
hem
ical
ele
men
ts 4
) , %
Mec
hani
cal p
rope
rtie
s 4)
St
eel
grad
e C
M
n
Si2)
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
C
4D
EN
≤ ≤≤≤
0.06
0.
30...
0.
60
≤ ≤≤≤0.
30
≤ ≤≤≤0.
035
≤ ≤≤≤0.
035
≤ ≤≤≤0.
20
≤ ≤≤≤0.
25
≤ ≤≤≤0.
30
N/S
M
o≤ ≤≤≤0.
05
Al≤ ≤≤≤
0.0
1
N/S
N
/S
N/S
N
/S
N/S
C4D
no
В
≤0.
06
0.30
...0.
40
≤0.
15
≤0.
030
≤0.
015
≤
0.20
≤
0.25
≤
0.30
≤
0.01
2
no В
≤
410
-
δ 5≥
35
≥ 7
2 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 1
.0 m
m
В =
0.00
3 ...
0.00
8 ≤
0.06
0.
30...
0.40
≤
0.15
≤
0.03
0 ≤
0.01
5
≤0.
20
≤0.
25
≤0.
30
≤0.
012
В
=0.
003
...0.
008
≤ 3
90
- δ 5
≥ 4
0 ≥
75
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
0.7
(0.5
) mm
C
7D
EN
0.
05...
0.
09
0.30
...
0.60
≤ ≤≤≤
0.30
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.20
≤ ≤≤≤
0.25
≤ ≤≤≤
0.30
N
/S
Mo≤ ≤≤≤
0.05
A
l≤ ≤≤≤ 0
.01
N
/S
N/S
N
/S
N/S
N
/S
C7D
no
В
0.04
...0.
09 0
.35.
..0.5
0 ≤
0.15
≤
0.03
0 ≤
0.01
5 ≤
0.20
≤
0.25
≤
0.30
≤
0.01
2
- ≤
450
-
δ 5≥
33
≥ 7
0 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 1
.4 m
m
В =
0.00
3 ...
0.00
8 0.
04...
0.09
0.3
5...0
.50
≤0.
15
≤0.
030
≤0.
015
≤0.
20
≤0.
25
≤0.
30
≤0.
012
В
=0.
003
...0.
008
≤ 4
30
- δ 5
≥ 3
7 ≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.2
(1.0
) mm
C
9D
EN
≤ ≤≤≤
0.10
≤ ≤≤≤
0.60
≤ ≤≤≤
0.30
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.20
≤ ≤≤≤
0.25
≤ ≤≤≤
0.35
N
/S
Mo≤ ≤≤≤
0.08
N/S
N
/S
N/S
N
/S
N/S
C9D
no
В
0.05
...0.
10 0
.35.
..0.5
0 ≤
0.15
≤
0.03
0 ≤
0.01
5 ≤
0.20
≤
0.25
≤
0.35
≤
0.01
2
- ≤
460
-
δ 5≥
33
≥ 7
0 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 1
.4 m
m
В =
0.00
3 ...
0.00
8 0.
05...
0.10
0.3
5...0
.50
≤0.
15
≤0.
030
≤0.
015
≤0.
20
≤0.
25
≤0.
35
≤0.
012
В
=0.
003
...0.
008
≤ 4
40
- δ 5
≥ 3
7 ≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.2
(1.0
) mm
C
10D
C
12D
C
15D
C
18D
0.08
...0.
13
0.10
...0.
15
0.12
...0.
17
0.15
...0.
20
0.30
...
0.60
≤ ≤≤≤
0.30
≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.03
5 ≤ ≤≤≤
0.20
≤ ≤≤≤
0.25
≤ ≤≤≤
0.30
N
/S
Mo≤ ≤≤≤
0.05
A
l≤ ≤≤≤ 0
.01
N
/S
N/S
N
/S
N/S
N
/S
C10
D
C12
D
C15
D
C18
D
0.08
...0.
13
0.10
...0.
15
0.12
...0.
17
0.15
...0.
20 0.
30...
0.50
0.
30...
0.60
0.
30...
0.60
0.
30...
0.60
0.10
...0.
20
≤
0.03
0 ≤
0.01
5 ≤
0.20
≤
0.25
≤
0.30
≤
0.01
2 ≤
0.01
0 -
≤ 4
90
≤ 5
10
≤ 5
30
≤ 5
50
- δ 5
≥32
δ 5
≥30
δ 5
≥30
δ 5
≥28
≥ 6
8 ≥
64
≥ 6
2 -
-
Ste
el P
rodu
cts
Spec
ific
atio
ns
II
I. W
ire
rod
/III
.I. L
ow c
arbo
n w
ire
rod
III.
I.2.
EN
100
16, P
art 2
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. T
he c
onte
nt o
f Si i
s su
bjec
ted
to th
e ag
reem
ent w
ith th
e cu
stom
er, a
nd M
n/Si
ratio
sha
ll be
at l
east
1:3
.
3. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
4. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
Ste
el P
rodu
cts
Spec
ific
atio
ns
II
I. W
ire
rod
/III
.I. L
ow c
arbo
n w
ire
rod
III.
I.3.
EN
100
16, p
art 3
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
5)
Mec
hani
cal p
rope
rtie
s 5)
St
eel
grad
e C
M
n Si
P
S Cr
Ni
Cu
N
4)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
≤ ≤≤≤
0.10
≤ ≤≤≤
0.10
≤ ≤≤≤
0.15
C
3D1
EN
≤ ≤≤≤
0.05
0.
20...
0.
40
≤ ≤≤≤0.
05
≤ ≤≤≤0.
025
≤ ≤≤≤0.
025
Cr
+ N
i + C
u≤ ≤≤≤0.
30
≤ ≤≤≤0.
007
Мо≤ ≤≤≤
0.03
A
l≤ ≤≤≤0.
05
≤ ≤≤≤ 3
90
N/S
N
/S
N/S
H
igh
defo
rmab
ility
at d
irec
t dr
awin
g , s
ay fr
om ∅ ∅∅∅
5.5
to
∅ ∅∅∅ 1
.0 m
m a
nd lo
wer
. Dep
th
of d
efec
ts ≤ ≤≤≤
0.1
7 m
m.
C3D
1 w
ith В
≤
0.05
2 0.
20...
0.
40
≤0.
052 ≤
0.02
5 ≤
0.01
5 3)
≤
0.01
2
В/N
≥ 0
.8
≤ 3
80
with
В
- -
≥ 7
5 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 0
.7(0
.5) m
m
≤ ≤≤≤0.
15
≤ ≤≤≤0.
15
≤ ≤≤≤0.
15
C4D
1 E
N
≤ ≤≤≤0.
06
0.20
...
0.45
≤ ≤≤≤
0.10
≤ ≤≤≤
0.02
5 ≤ ≤≤≤
0.02
5 C
r +
Ni +
Cu
≤ ≤≤≤ 0
.35
≤ ≤≤≤0.
007
Мо≤ ≤≤≤
0.03
A
l≤ ≤≤≤0.
05
N/S
N
/S
N/S
N
/S
As
for
grad
e C
2D1
≤ 4
10
no В
-
- ≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
mm
C
4D1
with
В
≤0.
06
0.20
...
0.45
≤
0.10
≤
0.02
5 ≤
0.01
5 3)
≤
0.01
2
В =
0.0
03...
0.
008
%
≤ 3
90
with
В
- -
≥ 7
5 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 0
.7(0
.5) m
m
Not
es:
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. T
he g
iven
che
mic
al c
ompo
sitio
n ca
n be
ens
ured
thro
ugh
the
use
of a
vac
uum
trea
tmen
t and
the
sele
ctio
n of
hea
ts.
3. A
chie
vabl
e, th
ough
incu
rs th
e in
crea
se in
the
cost
s of
pro
duct
ion.
4. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
5. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
Ste
el P
rodu
cts
Spec
ific
atio
ns
II
I. W
ire
rod
/III
.I. L
ow c
arbo
n w
ire
rod
III.
I.4.
EN
100
16, p
art 4
M
ass
frac
tion
of c
hem
ical
ele
men
ts 5
) , %
Mec
hani
cal p
rope
rtie
s 5)
St
eel
grad
e C
M
n Si
P
S Cr
Ni
Cu
N
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
≤ ≤≤≤
0.10
≤ ≤≤≤
0.10
≤ ≤≤≤
0.15
C
3D2
C5D
2 C
8D2
EN
≤ ≤≤≤0.
052)
≤ ≤≤≤
0.07
0.
06...
0.10
0.30
...
0.50
≤ ≤≤≤
0.30
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
5
Cr
+ N
i + C
u ≤ ≤≤≤
0.3
0
≤ ≤≤≤0.
007
Мо
≤ ≤≤≤ 0
.05
Cu+
Sn ≤ ≤≤≤
0.
15
Al ≤ ≤≤≤
0.0
15
Subj
ect
to th
e ag
reem
ent
∆ ∆∆∆
σ σσσв
≤ ≤≤≤ 8
0
N/S
N
/S
N/S
F
or d
eep
draw
ing
qual
ity
wir
e ro
d:
Dep
th o
f de
fect
s
≤ ≤≤≤ 0
.15
mm
;
Dir
ect d
raw
ing
from
∅ ∅∅∅
5.5
...6.
5 to
∅ ∅∅∅ 1
.0
mm
and
low
er
C3D
2 C
5D2
C8D
2
≤0.
051)
≤
0.0
7 0.
06...
0.10
0.30
...
0.50
≤0.
15
≤0.
015
≤0.
015
3)
4)
Ach
ieva
ble3)
≤
410
≤
420
≤
460
- δ 5
≥35
δ 5
≥35
δ 5
≥35
≥ 7
2 ≥
70
≥ 7
0
Ach
ieva
ble
≤ ≤≤≤0.
10
≤ ≤≤≤0.
10
≤ ≤≤≤0.
15
C10
D2
C12
D2
C15
D2
C18
D2
0.08
...0.
12
0.10
...0.
14
0.13
...0.
17
0.16
...0.
20
0.30
...
0.50
≤ ≤≤≤
0.30
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
5 C
r +
Ni +
Cu
≤ ≤≤≤ 0
.30
≤ ≤≤≤0.
007
Мо
≤ ≤≤≤ 0
.05
Cu+
Sn ≤ ≤≤≤
0.
15
Al ≤ ≤≤≤
0.0
15
Subj
ect
to th
e ag
reem
ent
∆ ∆∆∆
σ σσσв
≤ ≤≤≤ 8
0
N/S
N
/S
N/S
F
or d
eep
draw
ing
qual
ity
wir
e ro
d:
Dep
th o
f de
fect
s ≤ ≤≤≤
0.
15 m
m
C10
D2
C12
D2
C15
D2
C18
D2
0.08
...0.
13
0.10
...0.
15
0.12
...0.
17
0.15
...0.
20
0.30
...
0.50
≤0.
15
≤0.
015
≤0.
015
3)
4)
Ach
ieva
ble
3)
≤ 4
90
≤ 5
10
≤ 5
30
≤ 5
50
- δ 5
≥32
δ 5
≥30
δ 5
≥30
δ 5
≥28
≥ 6
8 ≥
64
≥ 6
2 -
Ach
ieva
ble
Not
es:
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. T
he g
iven
che
mic
al c
ompo
sitio
n ca
n be
ens
ured
thro
ugh
the
sele
ctio
n of
hea
ts.
3. A
chie
vabl
e, th
ough
incu
rs th
e in
crea
sed
cost
s of
pro
duct
ion.
4. N
itrog
en s
hall
be a
gree
d up
on a
t the
leve
l not
exc
eedi
ng 0
.007
%.
5. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
6. T
he e
valu
atio
n of
non
-met
allic
incl
usio
ns is
per
form
ed, i
f req
uest
ed b
y th
e cu
stom
er .
Ste
el P
rodu
cts
Spec
ific
atio
ns
II
I. W
ire
rod
/III
.I. L
ow c
arbo
n w
ire
rod
III.
I.5.
JIS
G 3
505
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, % 5)
M
echa
nica
l pro
pert
ies
5)
Stee
l gr
ade
1)
C
M
n
Si2)
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
SW
PM
6K
≤ ≤≤≤
0.08
≤ ≤≤≤
0.60
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
W
ire
rod
of a
gen
eral
ap
plic
atio
n, in
clud
ing
the
galv
anis
atio
n.
6K
with
В
≤0.
08
0.35
...0.
40
≤0.
15
≤0.
030
≤0.
020
≤0.
30
≤0.
30
≤0.
35
≤0.
012
≤0.
010
- ≤
440
-
δ 5≥
35
≥ 7
0 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 1
.2 m
m
В=0
.003
...
0.00
8 ≤
0.08
0.
35...
0.40
≤
0.15
≤
0.03
0 ≤
0.02
0 ≤
0.30
≤
0.30
≤
0.35
≤0.
012
≤0.
010 В
=0.0
03
...0.
008
≤ 4
20
- δ 5
≥ 3
7 ≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
(0.7
) mm
SW
PM
8K
≤ ≤≤≤
0.10
≤ ≤≤≤
0.60
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
W
ire
rod
of a
gen
eral
ap
plic
atio
n, in
clud
ing
the
galv
anis
atio
n.
8K
with
В
0.05
...0.
10 0
.35.
..0.5
0 ≤
0.15
≤
0.03
0 ≤
0.02
0 ≤
0.30
≤
0.30
≤
0.35
≤
0.01
2 ≤
0.01
0 -
≤ 4
60
- δ 5
≥33
≥
70
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.4
mm
В
=0.0
03
...0.
008
0.05
...0.
10
0.
35...
0.50
≤
0.15
≤
0.03
0 ≤
0.02
0 ≤
0.30
≤
0.30
≤
0.35
≤0.
012
≤0.
010 В
=0.0
03
...0.
008
≤ 4
40
- δ 5
≥ 3
7 ≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.2
(1.0
) mm
SW
PM
10
K
0.08
...
0.13
0.
30...
0.
60
N/S
≤ ≤≤≤
0.04
5 ≤ ≤≤≤
0.04
5 N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
Wir
e ro
d of
a g
ener
al
appl
icat
ion,
incl
udin
g th
e ga
lvan
isat
ion.
10
K
0.08
...0.
13 0
.30.
..0.6
0 ≤
0.15
≤
0.03
0 ≤
0.02
0 ≤
0.30
≤
0.30
≤
0.40
≤
0.01
2 ≤
0.01
0 -
≤ 4
90
- δ 5
≥32
≥
68
-
12K
15
K
17K
0.10
...0.
15
0.13
...0.
18
0.15
...0.
20
0.30
...
0.60
N
/S
≤ ≤≤≤0.
045
≤ ≤≤≤0.
045
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
W
ire
rod
of a
gen
eral
ap
plic
atio
n, in
clud
ing
the
galv
anis
atio
n.
12K
15
K
17K
0.10
...0.
15
0.13
...0.
18
0.15
...0.
20
0.30
...
0.60
≤
0.15
≤
0.03
0 ≤
0.02
0 ≤
0.30
≤
0.30
≤
0.35
≤
0.01
2 ≤
0.01
0 -
≤ 5
10
≤ 5
30
≤ 5
50
- δ 5
≥30
δ 5
≥30
δ 5
≥ 2
8
≥ 6
4 ≥
62 -
-
Stee
l Pro
duct
s Sp
ecif
icat
ion
III.
Wir
e ro
d /I
II.II
. Med
ium
car
bon
wir
e ro
d
III.
I.5.
JIS
G 3
505
Not
es: 1.
Req
uire
men
ts o
f the
Sta
ndar
d Sp
ecif
icat
ion
to th
e pr
oduc
t are
sho
wn
in b
old
lette
rs, t
he v
alue
s ac
hiev
able
by
the
mill
for a
resp
ectiv
e gr
ade
are
give
n
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. L
ette
r "К
" m
eans
a k
illed
ste
el g
rade
, no
lette
r “K
” m
eans
a ri
mm
ing
or s
emi-
kille
d st
eel g
rade
.
3. If
requ
ired
by
the
cust
omer
the
cont
ent o
f Si m
ay b
e m
odif
ied,
with
Mn/
Si ra
tio b
eing
at l
east
1:3
.
4. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
5. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if
agre
ed u
pon
betw
een
the
cust
omer
and
the
mill
.
6. S
teel
may
be
mic
roal
loye
d w
ith B
, if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
III.
II.1
. AST
M A
510;
AST
M A
510M
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, % 4)
M
echa
nica
l pro
pert
ies 4
) St
eel
grad
e C
M
n Si
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m 2
δ,
%
Ψ
, %
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
10
20
1021
0.
18...
0.23
0.3
0...0
.60
0.60
...0.
90
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1020
10
21
0.18
...0.
23 0
.30.
..0.5
5 0.
60...
0.80
0.10
...0.
20
0.20
...0.
30
≤0.
030
≤0.
015
≤
0.30
≤
0.30
≤
0.35
≤
0.01
2
- ≤
560
≤
580
-
δ 5≥
30
δ 5≥
30
≥ 6
0 ≥
60
1022
10
23
0.18
...0.
23
0.20
...0.
25 0.
70...
1.00
0.
30...
0.60
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
N
/S
1022
10
23
0.18
...0.
230.
20...
0.25
0.72
...0.
90
0.35
...0.
55 0.
20...
0.30
0.
10...
0.20
≤
0.03
5 ≤
0.01
5 ≤
0.3
0 ≤
0.3
0 ≤
0.3
5 ≤
0.01
2
- ≤
600
≤
620
-
δ 5≥
28
δ 5≥
28
≥ 6
0 ≥
60
-
1025
10
26
0.22
...0.
28 0
.30.
..0.6
0 0.
60...
0.90
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
N
/S
Stee
l Pro
duct
s Sp
ecif
icat
ion
III.
Wir
e ro
d /I
II.II
. Med
ium
car
bon
wir
e ro
d
1025
10
26
0.22
...0.
28 0
.35.
..0.5
5 0.
60...
0.80
0.20
...0.
30
0.10
...0.
20
≤0.
035
≤0.
015
≤0.
30
≤0.
30
≤0.
35
≤0.
012
-
≤ 6
40
≤ 6
60
- δ 5
≥26
δ 5
≥26
≥
58
≥ 5
8 -
1029
10
30
0.25
...0.
31
0.28
...0.
34
0.60
...
0.90
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
N
/S
1029
10
30
0.25
...0.
31
0.28
...0.
34 0.
60...
0.80
0.2
0...0
.30
≤0.
035
≤0.
015
≤0.
30
≤0.
30
≤0.
35
≤0.
012
-
≤ 6
80
≤ 7
10
- δ 5
≥24
δ 5
≥24
≥
54
≥ 5
4 -
1034
10
35
1037
0.32
...0.
38 0
.50.
..0.8
0 0.
60...
0.90
0.
70...
1.00
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1034
10
35
1037
0.32
...0.
38 0
.50.
..0.7
0 0.
60...
0.70
0.
70...
0.90
0.20
...0.
30
≤
0.04
0 ≤
0.01
5 ≤
0.30
≤
0.30
≤
0.35
≤
0.01
2
- ≤
700
≤
720
≤
740
- δ 5
≥20
δ 5
≥20
δ 5
≥20
- - -
-
Stee
l Pro
duct
s Sp
ecif
icat
ion
III.
Wir
e ro
d /I
II.II
. Med
ium
car
bon
wir
e ro
d
III.
II.1
. AST
M A
510;
AST
M A
510M
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
4)
Mec
hani
cal p
rope
rtie
s 4)
Stee
l gr
ade
C
M
n Si
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
σв,
N/m
m 2
σт,
N/m
m 2
δ,
%
Ψ
, %
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
10
38
0.35
...0.
42
0.60
...
0.90
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
N
/S
1038
0.
35...
0.42
0.
60...
0.70
0.
20...
0.30
≤0.
040
≤0.
015
≤0.
30
≤0.
30
≤0.
35
≤0.
012
-
≤ 7
50
- δ 5
≥20
-
-
1039
10
40
0.37
...0.
44
0.70
...1.
00
0.60
...0.
90
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1039
10
40
0.37
...0.
44
0.60
...0.
90
0.60
...0.
80
0.20
...0.
30 ≤
0.04
0 ≤
0.01
5 ≤
0.30
≤
0.30
≤
0.35
≤
0.01
2
- ≤
770
≤
750
-
δ 5≥
16
δ 5≥
16
- -
NO
TE
S:
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. If
nec
essa
ry, t
he c
onte
nt o
f Si
may
be
eith
er in
con
form
ity w
ith th
e St
anda
rd S
peci
fica
tion,
and
par
ticul
arly
les
s th
an 0
.10
%; 0
.07.
..0.1
5 %
; 0.1
0...0
.20
%; 0
.15.
..0.3
0 %
; 0.2
0...0
.40
%, o
r as
requ
este
d by
the
cust
omer
, with
Mn/
Si ra
tio b
eing
at l
east
1:3
.
3. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
4. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
Stee
l Pro
duct
s Sp
ecif
icat
ion
III.
Wir
e ro
d /I
II.II
. Med
ium
car
bon
wir
e ro
d
III.
II.2
. EN
100
16, p
art 2
Mas
s fr
actio
n of
che
mic
al e
lem
ents
5) , %
M
echa
nica
l pro
pert
ies 5
) St
eel
grad
e C
M
n
Si2)
P
S Cr
Ni
Cu
N
4)
Oth
er
elem
ents
3)
σв,
N/m
m 2
σт,
N/m
m 2
δ,
%
Ψ
, %
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
C
20D
0.
18...
0.23
0.
30...
0.
60
≤ ≤≤≤0.
30
≤ ≤≤≤0.
035
≤ ≤≤≤0.
035
≤ ≤≤≤0.
20
≤ ≤≤≤0.
25
≤ ≤≤≤0.
30
N/S
M
o≤ ≤≤≤0.
05
Al≤ ≤≤≤
0.0
1
N/S
N
/S
N/S
N
/S
N/S
C20
D
0.18
...0.
23
0.30
...
0.60
0.
10...
0.
20
≤0.
030
≤0.
015
≤0.
20
≤0.
25
≤0.
30
≤0.
012
-
≤ 5
60
- δ 5
≥25
≥
60
-
C26
D
C32
D
C38
D
0.24
...0.
29
0.30
...0.
35
0.35
...0.
40
0.50
...
0.80
0.
10...
0.
30
≤ ≤≤≤0.
035
≤ ≤≤≤0.
035
≤ ≤≤≤0.
20
≤ ≤≤≤0.
25
≤ ≤≤≤0.
30
N/S
M
o≤ ≤≤≤0.
05
Al≤ ≤≤≤
0.0
1
N/S
N
/S
N/S
N
/S
N/S
C26
D
C32
D
C38
D
0.24
...0.
29
0.30
...0.
35
0.35
...0.
40
0.50
...
0.80
0.
20...
0.
30
≤0.
030
≤0.
015
≤0.
20
≤0.
25
≤0.
30
≤0.
012
-
≤ 6
60
≤ 7
00
≤ 7
60
- δ 5
≥ 2
6 δ 5
≥ 2
4 δ 5
≥ 2
0
≥ 5
8 ≥
54 -
-
NO
TE
S:
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. T
he c
onte
nt o
f Si b
y m
ass
shal
l be
agre
ed w
ith th
e cu
stom
er.
3. F
or g
rade
s in
the
rang
e fr
om C
49D
to C
88D
: Cu
+ Sn
≤ 0
.25
%.
4. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
5. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
Stee
l Pro
duct
s Sp
ecif
icat
ion
III.
Wir
e ro
d /I
II.II
. Med
ium
car
bon
wir
e ro
d
III.
II.3
. EN
100
16, p
art 4
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel
grad
e C
M
n Si
P
S Cr
Ni
Cu
N
Oth
er
elem
ents
σв,
N/m
m 2
σт,
N/m
m 2
δ,
%
Ψ
, %
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
C
20D
2 0.
18...
0.23
0.
30...
0.
50
≤ ≤≤≤0.
30
≤ ≤≤≤0.
020
≤ ≤≤≤0.
025
≤ ≤≤≤0.
10
≤ ≤≤≤0.
10
≤ ≤≤≤0.
15
≤ ≤≤≤0.
007 Мо
≤ ≤≤≤ 0
.05
Cu+
Sn ≤ ≤≤≤
0.
15
Al ≤ ≤≤≤
0.0
15
Subj
ect
to th
e ag
reem
ent
∆ ∆∆∆
σ σσσв
≤ ≤≤≤ 8
0
N/S
N
/S
N/S
F
or d
eep
draw
ing
qual
ity
wir
e ro
d:
dept
h of
def
ects
≤ ≤≤≤
0.1
5 m
m
C
20D
2 0.
18...
0.23
0.
30...
0.
60
0.10
...
0.20
≤
0.02
0 ≤
0.01
5 2)
3)
3)
≤
560
-
δ 5≥
25
≥ 6
0 A
chie
vabl
e
≤ ≤≤≤0.
10
≤ ≤≤≤0.
10
≤ ≤≤≤0.
15
C26
D2
C32
D2
C36
D2
C38
D2
C40
D2
0.24
...0.
29
0.30
...0.
34
0.34
...0.
38
0.36
...0.
40
0.38
...0.
42
0.50
...
0.70
0.
10...
0.30
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
5 C
r +
Ni +
Cu
≤ ≤≤≤ 0
.30
≤ ≤≤≤0.
007
Мо≤ ≤≤≤
0.03
C
u+Sn
≤ ≤≤≤
0.15
A
l ≤ ≤≤≤ 0
.015
Subj
ect
to th
e ag
reem
ent
∆ ∆∆∆
σ σσσв
≤ ≤≤≤ 8
0
N/S
N
/S
N/S
F
or d
eep
draw
ing
qual
ity
wir
e ro
d:
dept
h of
def
ects
≤ ≤≤≤
0.1
5 m
m
C26
D2
C32
D2
C36
D2
C38
D2
C40
D2
0.24
...0.
29
0.30
...0.
34
0.34
...0.
38
0.36
...0.
40
0.38
...0.
42
0.50
…0.
60
0.10
...
0.20
≤
0.02
0 ≤
0.01
5 2)
3)
3)
≤
660
≤
700
≤
750
≤
760
≤
770
- δ 5
≥26
δ 5
≥24
δ 5
≥20
δ 5
≥20
δ 5
≥20
≥ 5
8 ≥
54 - - -
Ach
ieva
ble
NO
TE
S:
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. A
chie
vabl
e, th
ough
incu
rs th
e in
crea
se in
the
cost
s of
pro
duct
ion.
3. T
o ag
ree
with
the
cust
omer
free
nitr
ogen
of n
ot m
ore
than
0.0
07%
.
4. T
he e
valu
atio
n of
non
-met
allic
incl
usio
ns is
per
form
ed, i
f req
uest
ed b
y th
e cu
stom
er. F
or c
arbo
n gr
ades
sta
rtin
g fr
om С
42D
2 an
d ov
er –
eva
luat
ion
of th
e
deca
rbur
isat
ion
shal
l be
to T
able
4 a
nd E
N 1
0016
, par
t 4, i
tem
3.4
.
Stee
l Pro
duct
s Sp
ecif
icat
ion
III.
Wir
e ro
d /I
II.II
. Med
ium
car
bon
wir
e ro
d
III.
II.4
. JIS
G 3
5051)
M
ass
frac
tion
of c
hem
ical
ele
men
ts, %
6)
Mec
hani
cal p
rope
rtie
s 6)
Stee
l gr
ade 2
) C
M
n
Si3)
P
S Cr
Ni
Cu
N
5)
Oth
er
elem
ents
σв,
N/m
m 2
σт,
N/m
m 2
δ,
%
Ψ
, %
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
20
K
22K
0.
18...
0.23
0.
20...
0.25
0.
30...
0.
60
N/S
≤ ≤≤≤
0.04
5 ≤ ≤≤≤
0.04
5 N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
Wir
e ro
d of
a g
ener
al
appl
icat
ion,
incl
udin
g th
e ga
lvan
isat
ion.
20
K
22K
0.
18...
0.23
0.20
...0.
25
0.30
...
0.60
0.
10…
0.
20
≤0.
030
≤0.
015
≤0.
30
≤0.
30
≤0.
35
≤0.
012
-
≤ 5
60
≤ 5
80
- δ 5
≥25
δ 5
≥24
- -
- N
OT
ES:
1. W
ire
rod
is n
ot a
pplic
able
for m
anuf
actu
ring
wel
ding
wir
e or
ele
ctro
des.
2. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
3. L
ette
r "К
" m
eans
a k
illed
ste
el g
rade
, no
lette
r “K
” m
eans
a ri
mm
ing
or s
emi-
kille
d st
eel g
rade
.
4. .
If re
quir
ed b
y th
e cu
stom
er th
e co
nten
t of S
i may
be
mod
ifie
d, w
ith M
n/Si
ratio
bei
ng a
t lea
st 1
:3.
5. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
6. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
7. S
teel
may
be
mic
roal
loye
d w
ith B
, if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
II.5
. JIS
G 3
5061)
Mas
s fr
actio
n of
che
mic
al e
lem
ents
4), %
M
echa
nica
l pro
pert
ies4)
St
eel g
rade
C
M
n Si
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
σв,
N/m
m 2
σт,
N/m
m 2
δ,
%
Ψ
, %
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
SW
RН
27
SWRН
32
SWRН
37
0.24
...0.
31
0.29
...0.
36
0.34
...0.
41
0.30
...0.
60
0.15
...
0.35
≤ ≤≤≤
0.0
40
≤ ≤≤≤ 0
.040
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
SWRН
27
SWRН
32
SWRН
37
0.24
...0.
31
0.29
...0.
36
0.34
...0.
41
0.30
...0.
60
0.15
...
0.30
≤
0.02
0 ≤
0.01
5 ≤
0.15
≤
0.15
≤
0.25
≤
0.01
2
В≤
0.00
3 ≤
660
≤
700
≤
770
- δ 5
≥ 2
6 δ 5
≥ 2
4 δ 5
≥ 2
0
≥ 5
8 ≥
54 -
-
NO
TE
S:
1. W
ire
rod
appl
icab
le fo
r man
ufac
turi
ng s
teel
wir
e, o
il qu
ench
ed w
ire,
pre
stre
ssed
con
cret
e w
ire,
rope
s, in
clud
ing
coat
ed ro
pes.
2. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
3. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
4. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
.
III.
III.
1. A
STM
A51
0; A
STM
A51
0M
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, % 4)
M
echa
nica
l pro
pert
ies4)
St
eel
grad
e C
M
n Si
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
10
42
1043
0.
40...
0.47
0.
60...
0.90
0.
70...
1.00
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
N
/S
1042
10
43
0.40
...0.
47
0.60
...0.
80
0.60
...0.
90
0.18
...
0.25
≤
0.02
5 ≤
0.02
0 ≤
0.15
≤
0.15
≤
0.25
≤
0.01
2
- ≤
820
- δ 5
≥15
- -
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
1044
10
45
1046
0.43
...0.
50
0.30
...0.
60
0.60
...0.
90
0.70
...1.
00
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1044
10
45
1046
0.43
...0.
50
0.35
...0.
55
0.60
...0.
80
0.70
...0.
90
0.12
...0.
20
0.18
...0.
25
≤0.
025
≤0.
020
≤0.
15
≤0.
15
≤0.
25
≤0.
012
-
≤ 8
60
≤ 8
80
≤ 9
00
- δ 5
≥14
δ 5
≥14
δ 5
≥14
- -
1049
0.
46...
0.53
0.
60...
0.90
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
N/S
1049
0.
46...
0.53
0.
60...
0.80
0.
18...
0.
25
≤0.
025
≤0.
020
≤0.
15
≤0.
15
≤0.
25
≤0.
012
-
≤ 9
10
- δ 5
≥13
-
-
1050
1053
0.
48...
0.55
0.
60...
0.90
0.
70...
1.00
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
1050
10
53
0.48
...0.
55
0.60
...0.
80
0.60
...0.
90
0.18
...
0.25
≤
0.02
5 ≤
0.02
0 ≤
0.15
≤
0.15
≤
0.25
≤
0.01
2
- ≤
930
-
δ 5≥
12
-
1055
0.
50...
0.6
0 0.
60...
0.90
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
1055
0.
35...
0.
38
0.60
...0.
80
0.18
...
0.25
≤
0.02
5 ≤
0.02
0 ≤
0.15
≤
0.15
≤
0.25
≤
0.01
2
- ≤
980
-
δ 10≥
12
≥ 3
5
1059
1060
0.
55...
0.65
0.
50...
0.80
0.
60...
0.90
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
1059
7)
1060
0.
55...
0.65
0.
50...
0.70
0.
60...
0.80
0.
18...
0.
25
≤0.
025
≤0.
020
≤0.
15
≤0.
15
≤0.
25
≤0.
012
В
≤0.
003
≤ 1
040
- δ 1
0≥11
≥
35
Spri
ng, r
ope,
pr
estr
esse
d co
ncre
te w
ire
rod,
di
rect
dra
win
g fr
om ∅
5.5
...6.
5 to
∅
1.2
...1.
8 m
m.
From
1to
2 th
erm
al
trea
tmen
t op
erat
ions
may
be
elim
inat
ed d
urin
g th
e dr
awin
g pr
oces
s.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
III.
1. A
STM
A51
0; A
STM
A51
0M
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, % 4)
M
echa
nica
l pro
pert
ies4)
St
eel
grad
e C
M
n Si
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
10
64
106
5 0.
60...
0.70
0.
50...
0.80
0.
60...
0.90
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
1064
1
065
0.60
...0.
70
0.50
...0.
70
0.60
...0.
80
0.15
...
0.30
≤
0.02
5 ≤
0.02
0 ≤
0.15
≤
0.15
≤
0.25
≤
0.01
2 ≤
0.01
0 В
≤0.
003
≤ 1
090
- δ 1
0≥10
≥
32
1069
10
70
0.65
...0.
75
0.40
...0.
70
0.60
...0.
90
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
1069
10
70
0.65
...0.
75
0.40
...0.
60
0.60
...0.
80
0.12
...0.
200.
18...
0.25
≤0.
025
≤0.
020
≤0.
15
≤0.
15
≤0.
25
≤0.
012
В
≤0.
003
≤ 1
140
- δ 1
0≥9
≥ 3
0
1074
10
75
0.70
...0.
80
0.50
...0.
80
0.40
...0.
70
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
1074
10
75
0.70
...0.
80
0.50
...0.
70
0.40
...0.
60
0.18
...0.
250.
12...
0.20
≤0.
025
≤0.
020
≤0.
15
≤0.
15
≤0.
25
≤0.
012
В
≤0.
003
≤ 1
190
- δ 1
0≥9
≥ 3
0
1078
1080
0.
72...
0.85
0.
75...
0.88
0.
30...
0.60
0.
60...
0.90
2)
≤ ≤≤≤
0.04
0 ≤ ≤≤≤
0.05
0 N
/S
N/S
N
/S
N/S
al
low
ed
В≤ ≤≤≤
0.00
3 N
/S
N/S
N
/S
N/S
1078
1080
0.
72...
0.85
0.
75...
0.88
0.
35...
0.55
0.
60...
0.80
0.
12...
0.20
0.18
...0.
25≤
0.02
5 ≤
0.02
0 ≤
0.15
≤
0.15
≤
0.25
≤
0.01
2
В≤
0.00
3 ≤
124
0 -
δ 10≥
8 ≥
27
1084
10
85
1086
0.80
...0.
93
0.
60...
0.90
0.
70...
1.00
0.
30...
0.50
2)
≤ ≤≤≤0.
040
≤ ≤≤≤0.
050
N/S
N
/S
N/S
N
/S
allo
wed
В
≤ ≤≤≤0.
003
N/S
N
/S
N/S
N
/S
1084
10
85
1086
0.80
...0.
93
0.
60...
0.80
0.
70...
0.90
0.
35...
0.45
0.18
...
0.25
≤
0.02
5 ≤
0.02
0 ≤
0.15
≤
0.15
≤
0.25
≤
0.01
2
В≤
0.00
3 ≤
128
0 -
δ 10≥
7 ≥
24
NO
TE
S: 1
. Req
uire
men
ts o
f the
Sta
ndar
d Sp
ecif
icat
ion
to th
e pr
oduc
t are
sho
wn
in b
old
lette
rs, t
he v
alue
s ac
hiev
able
by
the
mill
for a
resp
ectiv
e gr
ade
are
give
n
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2.
If n
eces
sary
, the
con
tent
of
Si m
ay b
e ei
ther
in c
onfo
rmity
with
the
Stan
dard
Spe
cifi
catio
n or
as
requ
este
d by
the
cust
omer
, with
Mn/
Si ra
tio b
eing
at l
east
1:3
.
3
. Nitr
ogen
– a
s re
ques
ted
by th
e cu
stom
er (t
otal
nitr
ogen
– u
p to
≤ 0
.012
, fre
e ni
trog
en –
up
to ≤
0.0
07 %
). 4
. The
pre
sent
spe
cifi
catio
ns s
how
the
norm
al (b
asic
) qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e
mod
ifie
d if
agr
eed
upon
bet
wee
n th
e cu
stom
er a
nd th
e m
ill.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
III.
2. E
N 1
0016
, par
t 2
Mas
s fr
actio
n of
che
mic
al e
lem
ents
4) , %
M
echa
nica
l pro
pert
ies4
5)
Stee
l gr
ade
C
M
n
Si2)
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
2)
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
C
42D
C
48D
C
50D
C
52D
C
56D
C
58D
C
60D
C
62D
C
66D
C
68D
C
70D
C
72D
C
76D
0.40
...0.
45
0.45
...0.
50
0.48
...0.
53
0.50
...0.
55
0.53
...0.
58
0.55
...0.
600.
58...
0.63
0.
60...
0.65
0.
63...
0.68
0.
65...
0.70
0.
68...
0.73
0.
70...
0.75
0.
73...
0.78
0.50
...
0.80
0.
10...
0.
30
≤ ≤≤≤0.
035
≤ ≤≤≤0.
035
≤ ≤≤≤0.
20
≤ ≤≤≤0.
15
≤ ≤≤≤0.
25
≤ ≤≤≤0.
20
≤ ≤≤≤0.
30
≤ ≤≤≤0.
25
N/S
M
o≤ ≤≤≤0.
05
Al≤ ≤≤≤
0.0
1
For
gr
ades
fr
om
C48
D
Cu
+ Sn
≤ ≤≤≤
0.25
%
N/S
N
/S
N/S
N
/S
N/S
C42
D
C48
D
C50
D
C52
D
C56
D
C58
D
C60
D
C62
D
C66
D
C68
D
C70
D
C72
D
C76
D
0.40
...0.
45
0.45
...0.
50
0.48
...0.
53
0.50
...0.
55
0.53
...0.
58
0.55
...0.
60
0.58
...0.
63
0.60
...0.
65
0.63
...0.
68
0.65
...0.
70
0.68
...0.
73
0.70
...0.
75
0.73
...0.
78
0.50
...
0.80
0.
10...
0.
30
≤0.
025
≤0.
020
≤0.
20
≤0.
15
≤0.
25
≤0.
20
≤0.
30
≤0.
25
≤0.
012
В
≤0.
003
≤ 8
20
≤ 8
80
≤ 9
10
≤ 9
30
≤ 9
80
≤ 9
80
≤ 1
040
≤ 1
060
≤ 1
090
≤ 1
090
≤ 1
140
≤ 1
160
≤ 1
190
- δ 5
≥ 1
5 δ 5
≥ 1
4 δ 5
≥ 1
3 δ 5
≥ 1
2 δ 5
≥ 1
2 δ 5
≥ 1
2 δ 1
0 ≥
11
δ 10 ≥
10
δ 10 ≥
10
δ 10 ≥
10
δ 10 ≥
9
δ 10 ≥
9
δ 10 ≥
9
- - - ≥
35
≥ 3
5 ≥
35
≥ 3
3 ≥
32
≥ 3
2 ≥
30
≥ 3
0 ≥
30
≥ 2
8
Spri
ng, r
ope
and
PC
qual
ity w
ire
rod,
di
rect
dra
win
g fr
om
∅
5.5
...6.
5 m
m to
∅ 1
.2...
1.8
mm
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
III.
2. E
N 1
0016
, par
t 2
Mas
s fr
actio
n of
che
mic
al e
lem
ents
4) , %
M
echa
nica
l pro
pert
ies4)
St
eel
grad
e C
M
n
Si2)
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
2)
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y 5)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
C
78D
C
80D
C
82D
C
86D
C
88D
0.75
...0.
80
0.78
...0.
83
0.80
...0.
85
0.83
...0.
88
0.85
...0.
90
0.50
...
0.80
0.
10...
0.
30
≤ ≤≤≤0.
035
≤ ≤≤≤0.
035
≤ ≤≤≤0.
15
≤ ≤≤≤0.
20
≤ ≤≤≤0.
25
N/S
M
o≤ ≤≤≤0.
05
Al≤ ≤≤≤
0.0
1 C
u +
Sn ≤ ≤≤≤
0.
25 %
N/S
N
/S
N/S
N
/S
C78
D
C80
D
C82
D
C86
D
C88
D
with
В
0.75
...0.
80
0.78
...0.
83
0.80
...0.
85
0.83
...0.
88
0.85
...0.
90
0.50
...
0.80
0.
10...
0.
30
≤0.
025
≤0.
020
≤0.
15
≤0.
20
≤0.
25
≤0.
012
В
≤0.
003
≤ 1
210
≤ 1
240
≤ 1
260
≤ 1
280
≤ 1
280
- δ 1
0≥9
δ 10≥
8 δ 1
0≥8
δ 10≥
7 δ 1
0≥7
≥28
≥
27
≥27
≥
24
≥24
Spri
ng, r
ope
and
PC
qual
ity w
ire
rod,
dir
ect
draw
ing
from
∅
5.5.
..6.5
to ∅
1.2
...1.
8 m
m
N
OT
ES:
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. M
icro
allo
ying
sha
ll be
agr
eed
upon
with
the
cust
omer
.
3. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
4. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
(bas
ic) q
ualit
y ch
arac
teri
stic
s of
wir
e ro
d, th
ough
che
mic
al c
ompo
sitio
n an
d m
echa
nica
l pro
pert
ies
may
be
mod
ifie
d if
agr
eed
upon
bet
wee
n th
e cu
stom
er a
nd th
e m
ill.
5. F
rom
1to
2 th
erm
al tr
eatm
ent o
pera
tions
may
be
elim
inat
ed d
urin
g th
e dr
awin
g pr
oces
s.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
III.
3. E
N 1
0016
, par
t 4
Mas
s fr
actio
n of
che
mic
al e
lem
ents
5) , %
M
echa
nica
l pro
pert
ies5)
St
eel
grad
e C
M
n Si
P
S Cr
Ni
Cu
N
Oth
er
elem
ents
σв,
N
/mm
2 σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
≤ ≤≤≤
0.10
≤ ≤≤≤
0.10
≤ ≤≤≤
0.15
C
42D
2 C
46D
2 C
48D
2 C
50D
2 C
52D
2 C
56D
2 C
58D
2
0.40
...0.
44
0.44
...0.
48
0.46
...0.
50
0.48
...0.
52
0.50
...0.
54
0.54
...0.
58
0.56
...0.
60
0.50
...
0.70
0.
10...
0.30
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
5 C
r +
Ni +
Cu
≤ ≤≤≤ 0
.30
≤ ≤≤≤0.
007
Мо≤ ≤≤≤
0.03
C
u+Sn
≤ ≤≤≤
0.15
A
l ≤ ≤≤≤ 0
.015
Upo
n ag
reem
ent
∆ ∆∆∆σ σσσв
≤ ≤≤≤ 1
00
N/S
N
/S
N/S
F
or w
ire
rod
of d
eep
draw
ing
qual
ity
the
dept
h of
def
ects
to b
e
≤ ≤≤≤ 0
.15
mm
, for
di
amet
ers
over
12
mm
th
e de
pth
of d
efec
ts to
be
≤ ≤≤≤ 0
.20
mm
C42
D2
C46
D2
C48
D2
C50
D2
C52
D2
C56
D2
C58
D2
0.40
...0.
44
0.44
...0.
48
0.46
...0.
50
0.48
...0.
52
0.50
...0.
54
0.54
...0.
58
0.56
...0.
60
0.50
...
0.70
0.
10...
0.30
≤
0.02
0 ≤
0.02
0 2)
3)
2)
≤
820
≤
850
≤
880
≤
910
≤
930
≤
980
≤
980
- δ 5
≥15
δ 5
≥15
δ 5
≥14
δ 5
≥13
δ 5
≥12
δ 5
≥12
δ 5
≥12
- - - - ≥
35
≥ 3
5 ≥
35
≤ ≤≤≤0.
10
≤ ≤≤≤0.
10
≤ ≤≤≤0.
15
C60
D2
C62
D2
C66
D2
C68
D2
C70
D2
C72
D2
C76
D2
0.58
...0.
62
0.60
...0.
64
0.64
...0.
68
0.66
...0.
70
0.68
...0.
72
0.70
...0.
74
0.74
...0.
78
0.50
...
0.70
0.
10...
0.30
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
5
Cr
+ N
i + C
u ≤ ≤≤≤
0.3
0
≤ ≤≤≤0.
007
Мо≤ ≤≤≤
0.03
C
u+Sn
≤ ≤≤≤
0.15
A
l ≤ ≤≤≤ 0
.015
F
rom
gr
ade
C70
D2
Мо≤ ≤≤≤
0.02
Upo
n ag
reem
ent
∆ ∆∆∆σ σσσв
≤ ≤≤≤ 1
00
Fro
m
grad
e C
72D
2 ∆ ∆∆∆
σ σσσв
≤ ≤≤≤ 1
20
N/S
N
/S
N/S
F
or w
ire
rod
of d
eep
draw
ing
qual
ity
the
dept
h of
def
ects
to b
e
≤ ≤≤≤ 0
.15 мм
, for
di
amet
ers
over
12
mm
th
e de
pth
of d
efec
ts to
be
≤ ≤≤≤ 0
.20
mm
C60
D2
C62
D2
C66
D2
C68
D2
C70
D2
C72
D2
C76
D2
0.58
...0.
62
0.60
...0.
64
0.64
...0.
68
0.66
...0.
70
0.68
...0.
72
0.70
...0.
74
0.74
...0.
78
0.50
...
0.70
0.
10...
0.30
≤
0.02
0 ≤
0.02
0 2)
3)
2)
≤
104
0 ≤
106
0 ≤
109
0 ≤
109
0 ≤
114
0 ≤
116
0 ≤
119
0
- - - - - - -
δ 10≥
11
δ 10≥
10
δ 10≥
10
δ 10≥
10
δ 10≥
9 δ 1
0≥9
δ 10≥
9
≥35
≥
32
≥32
≥
30
≥30
≥
30
≥30
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
III.
3. E
N 1
0016
, par
t 4
Mas
s fr
actio
n of
che
mic
al e
lem
ents
5) , %
M
echa
nica
l pro
pert
ies5)
St
eel
grad
e C
M
n Si
P
S Cr
Ni
Cu
N
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
≤ ≤≤≤
0.10
≤ ≤≤≤
0.10
≤ ≤≤≤
0.15
C
78D
2 C
80D
2 C
82D
2 C
86D
2 C
88D
2
0.76
...0.
80
0.78
...0.
82
0.80
...0.
84
0.84
...0.
88
0.86
...0.
90
0.50
...
0.70
0.
10...
0.30
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
5 C
r +
Ni +
Cu
≤ ≤≤≤ 0
.30
≤ ≤≤≤0.
007
Мо≤ ≤≤≤
0.03
C
u+Sn
≤ ≤≤≤
0.15
A
l ≤ ≤≤≤ 0
.015
Мо≤ ≤≤≤
0.02
Upo
n ag
reem
ent
∆ ∆∆∆σ σσσв
≤ ≤≤≤
120
N/S
N
/S
N/S
F
or w
ire
rod
of d
eep
draw
ing
qual
ity
the
dept
h of
def
ects
to b
e ≤ ≤≤≤
0.1
5 мм
, for
dia
met
ers
over
12
mm
the
dept
h of
de
fect
s to
be
≤ ≤≤≤ 0
.20
mm
C
78D
2 C
80D
2 C
82D
2 C
86D
2 C
88D
2 w
ith В
0.76
...0.
80
0.78
...0.
82
0.80
...0.
84
0.84
...0.
88
0.86
...0.
90
0.50
...
0.70
0.
10...
0.30
≤
0.02
0 ≤
0.02
0 2)
3)
A
chie
vabl
e В
≤0.
003
≤ 1
210
≤ 1
240
≤ 1
260
≤ 1
280
≤ 1
280
- δ 1
0≥9
δ 10≥
8 δ 1
0≥8
δ 10≥
7 δ 1
0≥7
≥28
≥
27
≥27
≥
24
≥24
NO
TE
S:
1. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. E
nsur
ed th
roug
h th
e us
e of
a c
lean
scr
ap c
harg
e, th
ough
it in
curs
the
incr
ease
in th
e pr
oduc
tion
cost
s.
3. F
ree
nitr
ogen
sha
ll be
agr
eed
upon
at t
he le
vel n
ot e
xcee
ding
0.0
07 %
.
4. T
he e
valu
atio
n of
non
-met
allic
incl
usio
ns is
per
form
ed, i
f req
uest
ed b
y th
e cu
stom
er. F
or c
arbo
n gr
ades
sta
rtin
g fr
om С
42D
2 an
d ov
er –
eva
luat
ion
of th
e
deca
rbur
isat
ion
shal
l be
to T
able
4 a
nd E
N 1
0016
, par
t 4, i
tem
3.4
.
5. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
(bas
ic) q
ualit
y ch
arac
teri
stic
s of
wir
e ro
d, th
ough
che
mic
al c
ompo
sitio
n an
d m
echa
nica
l pro
pert
ies
may
be
mod
ifie
d if
agr
eed
upon
bet
wee
n th
e cu
stom
er a
nd th
e m
ill.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
III.
4. J
IS G
350
61)
Mas
s fr
actio
n of
che
mic
al e
lem
ents
4) , %
M
echa
nica
l pro
pert
ies4)
St
eel g
rade
C
M
n Si
P
S Cr
Ni
Cu
N
3)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y 5)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
42А
/42В
47А
/47В
52А
/52В
57А
/57В
62А
/62В
67А
/67В
72А
/72В
77А
/77В
82А
/82В
0.39
...0.
46
0.44
...0.
51
0.49
...0.
56
0.54
...0.
610.
59...
0.60
0.64
...0.
710.
69...
0.76
0.74
...0.
810.
79...
0.86
0.30
...0.
60/
0.60
...0.
90
0.15
...
0.35
≤ ≤≤≤
0.0
40
для
марок
с
67А
/67В
≤ ≤≤≤
0.0
30
≤ ≤≤≤ 0
.040
для
марок
с
67А
/67В
≤ ≤≤≤
0.0
30
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
42А
/42В
47А
/47В
52А
/52В
57А
/57В
62А
/62В
67А
/67В
72А
/72В
77А
/77В
82А
/82В
with
В
0.39
...0.
46
0.44
...0.
51
0.49
...0.
56
0.54
...0.
610.
59...
0.60
0.64
...0.
710.
69...
0.76
0.74
...0.
810.
79...
0.86
0.30
...0.
60/
0.60
...0.
90
0.15
...
0.35
≤
0.05
0 ≤
0.02
0 ≤
0.15
≤
0.15
≤
0.25
≤
0.01
2
В≤
0.00
3 ≤
820
≤
880
≤
930
≤
980
≤
104
0 ≤
104
0 ≤
109
0 ≤
114
0 ≤
124
0
- δ 5
≥ 1
5 δ 5
≥ 1
4 δ 5
≥ 1
2 δ 5
≥ 1
2 δ 1
0≥11
δ 10≥
11δ 1
0≥10
δ 10≥
9 δ 1
0≥8
- - - ≥
35
≥ 3
5 ≥
35
≥ 3
2 ≥
30
≥ 2
7
NO
TE
S: 1
. Wir
e ro
d ap
plic
able
for m
anuf
actu
ring
ste
el w
ire,
oil
quen
ched
wir
e, p
rest
ress
ed c
oncr
ete
wir
e, ro
pes,
incl
udin
g co
ated
rope
s.
2. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
3.
Nitr
ogen
– a
s re
ques
ted
by th
e cu
stom
er (t
otal
nitr
ogen
– u
p to
≤ 0
.012
, fre
e ni
trog
en –
up
to ≤
0.0
07 %
). 4.
The
pre
sent
spe
cifi
catio
ns s
how
the
norm
al (b
asic
) qua
lity
char
acte
rist
ics
of w
ire
rod,
thou
gh c
hem
ical
com
posi
tion
and
mec
hani
cal p
rope
rtie
s m
ay b
e m
odif
ied
if a
gree
d up
on b
etw
een
the
cust
omer
and
the
mill
. 5.
Spr
ing,
rope
, pre
stre
ssed
con
cret
e w
ire
rod,
dir
ect d
raw
ing
from
∅ 5
.5...
6.5
to
∅ 1
.2...
1.8
mm
. Fr
om 1
to 2
ther
mal
trea
tmen
t ope
ratio
ns m
ay b
e el
imin
ated
dur
ing
the
draw
ing
proc
ess.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
III.
5. ТУ
У 2
7.1-
4-51
9-20
021)
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel g
rade
C
M
n Si
P
S Cr
Ni
Cu
N
2)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
Ψ
, %
Proc
essa
bilit
y 3)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
50
0.
48...
0.
52
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
017
≤ ≤≤≤0.
012
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.20
0,00
7 ≤
940
N/S
≥
13
≥ 4
0
55
0.53
...
0.57
0.
30...
0.
60
0.15
…
0.25
≤ ≤≤≤
0.01
7 ≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.1
0 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.2
0 0,
007
≤ 9
90
N
/S
≥ 1
2 ≥
35
60
0.58
...
0.62
0.
30...
0.
60
0.15
…
0.25
≤ ≤≤≤
0.01
7 ≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.1
0 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.2
0 0,
007
≤ 1
040
N
/S
≥ 1
1 ≥
35
65
0.63
…0.
67
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
017
≤ ≤≤≤0.
012
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.20
0,00
7 ≤
109
0
N/S
≥
10
≥ 3
2
70
0.68
…0.
72
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
017
≤ ≤≤≤0.
012
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.20
0,00
7 ≤
114
0
N/S
≥
9
≥ 3
0
75
0.73
…0.
77
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
017
≤ ≤≤≤0.
012
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.20
0,00
7 ≤
119
0
N/S
≥
9
≥ 3
0
80
0.78
…0.
82
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
017
≤ ≤≤≤0.
012
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.20
0,00
7 ≤
124
0
N/S
≥
8
≥ 2
7
85
0.83
…0.
87
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
017
≤ ≤≤≤0.
012
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.20
0,00
7 ≤
128
0
N/S
≥
7
≥ 2
4
90
0.88
...
0.92
0.
30...
0.
60
0.15
…
0.25
≤ ≤≤≤
0.01
7 ≤ ≤≤≤
0.01
2 ≤ ≤≤≤
0.1
0 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.2
0 0,
007
S+P
≤ ≤≤≤
0.02
5
Cr+
Ni+
Cu
≤ ≤≤≤ 0
.35
≤ 1
300
N
/S
≥ 6
≥
22
Spri
ng, r
ope,
pre
stre
ssed
co
ncre
te w
ire
rod,
dir
ect
draw
ing
from
∅ 5
.5...
6.5
to
∅ 1
.2...
1.8
mm
. Fr
om 1
to 2
ther
mal
tr
eatm
ent o
pera
tions
may
be
elim
inat
ed d
urin
g th
e dr
awin
g pr
oces
s.
NO
TE
S: 1
. Wir
e ro
d ap
plic
able
for m
anuf
actu
ring
ste
el w
ire
of ro
pe a
nd s
prin
g qu
ality
, pre
stre
ssed
con
cret
e w
ire,
and
oth
er ty
pes
of w
ire.
2.
Fre
e ni
trog
en.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. H
igh
carb
on w
ire
rod
III.
III.
6. ТУ
У 2
7.1-
4-52
1-20
021)
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel g
rade
C
M
n Si
P
S Cr
Ni
Cu
N
2)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
Ψ
, %
Proc
essa
bilit
y 3)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
50
0.
48...
0.
52
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
025
≤ ≤≤≤0.
020
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.25
0,00
8 ≤
940
N/S
≥
13
≥ 4
0
55
0.53
...
0.57
0.
30...
0.
60
0.15
…
0.25
≤ ≤≤≤
0.02
5 ≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.2
5 0,
008
≤ 9
90
N
/S
≥ 1
2 ≥
35
60
0.58
...
0.62
0.
30...
0.
60
0.15
…
0.25
≤ ≤≤≤
0.02
5 ≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.2
5 0,
008
≤ 1
040
N
/S
≥ 1
1 ≥
35
65
0.63
…0.
67
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
025
≤ ≤≤≤0.
020
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.25
0,00
8 ≤
109
0
N/S
≥
10
≥ 3
2
70
0.68
…0.
72
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
025
≤ ≤≤≤0.
020
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.25
0,00
8 ≤
114
0
N/S
≥
9
≥ 3
0
75
0.73
…0.
77
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
025
≤ ≤≤≤0.
020
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.25
0,00
8 ≤
119
0
N/S
≥
9
≥ 3
0
80
0.78
…0.
82
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
025
≤ ≤≤≤0.
020
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.25
0,00
8 ≤
124
0
N/S
≥
8
≥ 2
7
85
0.83
…0.
87
0.30
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
025
≤ ≤≤≤0.
020
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.15
≤ ≤≤≤ 0
.25
0,00
8 ≤
128
0
N/S
≥
7
≥ 2
4
90
0.88
...
0.92
0.
30...
0.
60
0.15
…
0.25
≤ ≤≤≤
0.02
5 ≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.1
5 ≤ ≤≤≤
0.2
5 0,
008
-
≤ 1
300
N
/S
≥ 6
≥
22
Spri
ng, r
ope,
pre
stre
ssed
co
ncre
te w
ire
rod,
dir
ect
draw
ing
from
∅ 5
.5...
6.5
to
∅ 1
.2...
1.8
mm
. Fr
om 1
to 2
ther
mal
tr
eatm
ent o
pera
tions
may
be
elim
inat
ed d
urin
g th
e dr
awin
g pr
oces
s.
NO
TE
S: 1
. Wir
e ro
d ap
plic
able
for m
anuf
actu
ring
ste
el w
ire
of ro
pe a
nd s
prin
g qu
ality
, pre
stre
ssed
con
cret
e w
ire,
and
oth
er ty
pes
of w
ire.
2. F
ree
nitr
ogen
.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.II
I. C
ord
qual
ity w
ire
rod
III.
IV.1
. ТУ
У 1
4-4-
470-
2000
1)
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel g
rade
C
M
n Si
P
S Cr
Ni
Cu
N
2)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ 10,
%
Ψ
, %
Proc
essa
bilit
y 4)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
70
KR
D
0.70
...
0.74
0.
40...
0.
60
0.15
…
0.25
≤ ≤≤≤
0.01
5 ≤ ≤≤≤
0.01
0 ≤ ≤≤≤
0.1
0 ≤ ≤≤≤
0.1
3 ≤ ≤≤≤
0.2
0 0,
007
≤ 1
160
N
/S
≥ 9
≥
30
75 K
RD
0.
75...
0.
79
0.40
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
015
≤ ≤≤≤0.
010
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.13
≤ ≤≤≤ 0
.20
0,00
7 ≤
120
0
N/S
≥
9
≥ 3
0
80 K
RD
0.
80...
0.
84
0.40
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
015
≤ ≤≤≤0.
010
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.13
≤ ≤≤≤ 0
.20
0,00
7 ≤
125
0
N/S
≥
8
≥ 2
7
85 K
RD
0.
85...
0.
89
0.40
...
0.60
0.
15…
0.
25
≤ ≤≤≤0.
015
≤ ≤≤≤0.
010
≤ ≤≤≤ 0
.10
≤ ≤≤≤ 0
.13
≤ ≤≤≤ 0
.20
0,00
7
Al ≤ ≤≤≤
0.0
05
Mo
≤ ≤≤≤ 0
.12
S+P
≤ ≤≤≤ 0
.022
C
r+N
i+C
u ≤ ≤≤≤
0.3
0
Upo
n ag
reem
ent
Cr+
Ni+
Cu
≤ ≤≤≤ 0
.35
≤ 1
300
N
/S
≥ 7
≥
25
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.2
...1.
8 m
m
From
1to
2 th
erm
al
trea
tmen
t ope
ratio
ns m
ay
be e
limin
ated
dur
ing
the
draw
ing
proc
ess.
NO
TE
S: 1
. Wir
e ro
d fo
r man
ufac
turi
ng c
ord
and
wir
e ap
plic
able
for h
igh
pres
sure
hos
e re
info
rcem
ent.
2. F
ree
nitr
ogen
.
3. M
anuf
actu
red
in d
iam
eter
s 5,
5 an
d 6,
5 m
m, t
oler
ance
± 0
,2, o
valit
y- 0
,30
mm
max
. Whe
n ag
reed
upo
n w
ith th
e cu
stom
er, w
ire
rod
may
be
man
ufac
ture
d in
oth
er d
iam
eter
s an
d w
ith o
ther
tole
ranc
e va
lues
.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.V
. Wel
ding
qua
lity
wir
e ro
d
III.
V.1
. ТУ
У 1
4-4-
495-
2001
1)
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel g
rade
C
M
n Si
P
S Cr
Ni
Cu
N
Oth
er
elem
ents
2)
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y 3)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
SВ
08G
SА
0.05
...
0.10
1.
4...
1.7
0.60
…
0.85
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.2
0 ≤ ≤≤≤
0.3
0 ≤ ≤≤≤
0.2
5 2)
N
/S
≤ 5
30
N
/S
N/S
≥
70
SВ08
GS
≤ ≤≤≤ 0
.10
1.4.
.. 1.
7 0.
60…
0.
85
≤ ≤≤≤0.
025
≤ ≤≤≤0.
030
≤ ≤≤≤ 0
.20
≤ ≤≤≤ 0
.25
≤ ≤≤≤ 0
.25
0.01
0 N
/S
≤ 6
40
N
/S
N/S
≥
50
SВ08
G1SА
0.
06...
0.
11
1.4.
.. 1.
7 0.
80…
1.
10
≤ ≤≤≤0.
020
≤ ≤≤≤0.
020
≤ ≤≤≤ 0
.20
≤ ≤≤≤ 0
.30
≤ ≤≤≤ 0
.25
2)
N/S
≤
560
N/S
N
/S
≥ 6
5
SV08
G1S
0.
06...
0.
11
1.4.
.. 1.
7 0.
80…
1.
10
≤ ≤≤≤0.
025
≤ ≤≤≤0.
030
≤ ≤≤≤ 0
.20
≤ ≤≤≤ 0
.30
≤ ≤≤≤ 0
.25
2)
N/S
≤
650
N/S
N
/S
≥ 4
8
SV08
G2SА
0.
06...
0.
11
1.8.
.. 2.
1 0.
70…
0.
95
≤ ≤≤≤0.
020
≤ ≤≤≤0.
020
≤ ≤≤≤ 0
.20
≤ ≤≤≤ 0
.30
≤ ≤≤≤ 0
.25
2)
N/S
≤
600
N/S
N
/S
≥ 6
0
SV08
G2S
0.
05...
0.
11
1.8.
.. 2.
1 0.
70…
0.
95
≤ ≤≤≤0.
025
≤ ≤≤≤0.
030
≤ ≤≤≤ 0
.20
≤ ≤≤≤ 0
.30
≤ ≤≤≤ 0
.25
0.01
0 N
/S
≤ 6
90
N
/S
N/S
≥
48
SV12
GS
≤ ≤≤≤ 0
.14
0.8.
.. 1.
1 0.
60…
0.
90
≤ ≤≤≤0.
025
≤ ≤≤≤0.
030
≤ ≤≤≤ 0
.20
≤ ≤≤≤ 0
.30
≤ ≤≤≤ 0
.25
0.01
0 N
/S
≤ 6
40
N
/S
N/S
≥
48
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.2
(1.0
) mm
NO
TE
S: 1
. Wir
e ro
d fo
r man
ufac
turi
ng w
eldi
ng w
ire
and
coat
ed w
eldi
ng e
lect
rode
s.
2. M
icro
allo
ying
of s
teel
with
B e
nsur
es fr
ee n
itrog
en o
f ≤ 0
.007
% in
ste
el.
3. D
raw
ing
with
a to
tal r
educ
tion
ratio
of n
ot le
ss th
an 9
0% is
ach
ieva
ble
only
whe
n m
odif
icat
ion
of n
on-m
etal
lic in
clus
ions
is a
pplie
d an
d th
e
com
plet
e pr
otec
tion/
shro
udin
g of
the
entir
e st
eel s
tran
d is
arr
ange
d du
ring
the
cast
ing
proc
ess.
4. M
anuf
actu
red
in d
iam
eter
s 5,
5…9,
0 m
m, t
oler
ance
s ±
0,2
, ova
lity
- 0,3
5 m
m m
axim
um. W
hen
agre
ed u
pon
with
the
cust
omer
, wir
e ro
d m
ay b
e
man
ufac
ture
d in
oth
er d
iam
eter
s an
d w
ith o
ther
dia
met
er to
lera
nce
valu
es.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.V
. Wel
ding
qua
lity
wir
e ro
d
III.
V.2
. JIS
G 3
5031)
Mas
s fr
actio
n of
che
mic
al e
lem
ents
5) , %
M
echa
nica
l pro
pert
ies5)
St
eel
grad
e
C
M
n
Si3)
P
S Cr
Ni
Cu
N
4)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y 6)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
SW
RY
11
≤ ≤≤≤ 0
.09
0.35
...
0.65
≤ ≤≤≤
0.0
3 ≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
3 N
/S
N/S
≤ ≤≤≤
0.2
0 N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
SWR
Y 1
1 no
В
no В
≤
450
- δ 5
≥33
≥ 7
0 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 1
.4 m
m
В=0
.003
...
0.00
8
0.04
...
0.09
0.
40...
0.
55
≤ 0
.03
achi
evab
le
≤
0.1
5 ≤
0.2
0 ≤
0.1
9 ≤
0.01
2
В=0
.003
...
0.00
8 ≤
430
- δ 5
≥37
≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
mm
SW
RY
21
0.06
...
0.10
0.
35...
0.
65
≤ ≤≤≤ 0
.03
≤ ≤≤≤0.
020
≤ ≤≤≤0.
023
N/S
N
/S
≤ ≤≤≤ 0
.20
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
SWR
Y 2
1 no
В
no В
≤ 4
60
-
δ 5≥
33
≥
70
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.4
mm
В
=0.0
03...
0.
008
0.06
...
0.10
0.
40...
0.
55
≤ 0
.03
achi
evab
le
≤
0.1
5 ≤
0.2
0 ≤
0.1
9 ≤
0.01
2
В=0
.003
...
0.00
8 ≤
440
- δ 5
≥37
≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
mm
N
OT
ES:
1. W
ire
rod
for m
anuf
actu
ring
wel
ding
wir
e an
d co
ated
wel
ding
ele
ctro
des.
2. R
equi
rem
ents
of t
he S
tand
ard
Spec
ific
atio
n to
the
prod
uct a
re s
how
n in
bol
d le
tters
, the
val
ues
achi
evab
le b
y th
e m
ill fo
r a re
spec
tive
grad
e ar
e gi
ven
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
3. It
can
be
ensu
red
thro
ugh
the
sele
ctio
n of
hea
ts u
pon
the
avai
labi
lity
of o
ther
con
curr
ent o
rder
s. It
resu
lts in
the
incr
ease
d co
sts
of p
rodu
ctio
n du
e to
the
use
of s
peci
al fe
rroa
lloys
and
a v
acuu
m tr
eatm
ent o
f ste
el.
4. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
5. T
he p
rese
nt s
peci
fica
tions
sho
w th
e no
rmal
(bas
ic) q
ualit
y ch
arac
teri
stic
s of
wir
e ro
d, th
ough
che
mic
al c
ompo
sitio
n an
d m
echa
nica
l pro
pert
ies
may
be
mod
ifie
d if
agr
eed
upon
bet
wee
n th
e cu
stom
er a
nd th
e m
ill.
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.V
. Wel
ding
qua
lity
wir
e ro
d
III.
V.4
. DIN
171
45 –
wel
ding
qua
lity
wir
e ro
d
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel
grad
e4)
C
M
n Si
P
S Cr
Ni
Cu
N
5)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y 6)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
U
SD7
code
:1.0
323
0.06
...
0.10
0.
45...
0.
65
trac
es
≤ ≤≤≤0.
025
≤ ≤≤≤0.
025
≤ ≤≤≤
0.12
≤ ≤≤≤
0.
12
≤ ≤≤≤
0.17
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
USD
7 no
В
no В
≤ 4
50
-
δ 5≥
33
≥
70
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.4
mm
В
=0.0
03...
0.
008
0.06
...
0.10
0.
45...
0.
55
≤0.
03 2)
≤0.
025
≤0.
015
4)
≤0.
012
≤0.
010 В
=0.0
03...
0.
008
≤ 4
30
- δ 5
≥37
≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
mm
U
SD6
code
:1.1
116
0.06
...
0.10
0.
45...
0.
65
trac
es
≤ ≤≤≤0.
020
≤ ≤≤≤0.
020
≤ ≤≤≤
0.12
≤ ≤≤≤
0.
12
≤ ≤≤≤
0.17
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
USD
6 no
В
no В
≤ 4
50
-
δ 5≥
33
≥
70
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.4
mm
В
=0.0
03...
0.
008
0.06
...
0.10
0.
45...
0.
55
≤0.
03 2)
≤0.
020
≤0.
015
4)
≤0.
012
≤0.
010 В
=0.0
03...
0.
008
≤ 4
30
- δ 5
≥37
≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
mm
U
SD5
code
:1.1
112
0.06
...
0.10
0.
45...
0.
65
trac
es
≤ ≤≤≤0.
010
≤ ≤≤≤0.
010
≤ ≤≤≤
0.12
≤ ≤≤≤
0.
12
≤ ≤≤≤
0.17
N
/S
N/S
N
/S
N/S
N
/S
N/S
N
/S
USD
5 no
В
no В
≤ 4
50
-
δ 5≥
33
≥
70
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.4
mm
В
=0.0
03...
0.
008
0.06
...
0.10
0.
45...
0.
55
≤0.
03 2)
3)
4)
≤0.
012
≤0.
010 В
=0.0
03...
0.
008
≤ 4
30
- δ 5
≥37
≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
mm
R
SD7
code
:1.0
324
0.05
...
0.09
0.
38...
0.
62
0.05
...0.
17
≤ ≤≤≤0.
025
≤ ≤≤≤0.
020
≤ ≤≤≤
0.12
≤ ≤≤≤
0.
12
≤ ≤≤≤
0.17
N
/S
Al ≤ ≤≤≤
0.0
10
N/S
N
/S
N/S
N
/S
N/S
RSD
7 no
В
no В
≤ 4
35
-
δ 5≥
33
≥
70
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.4
mm
В
=0.0
03...
0.
008
0.05
...
0.09
0.38
...
0.47
0.
05...
0.
17
≤0.
025
≤0.
015
4)
≤0.
012
≤0.
010 В
=0.0
03...
0.
008
≤ 4
10
- δ 5
≥ 3
7 ≥
72
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.0
mm
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.V
. Wel
ding
qua
lity
wir
e ro
d
III.
V.4
. DIN
171
45 –
wel
ding
qua
lity
wir
e ro
d
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel
grad
e3)
C
M
n Si
P
S Cr
Ni
Cu
N
5)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y 6)
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
R
SD10
Si
code
:1.0
339
RR
SD10
co
de:1
.035
1
0.07
...
0.11
0.
38...
0.
57
0.18
...0.
45
≤ ≤≤≤0.
025
≤ ≤≤≤
0.02
5
≤ ≤≤≤0.
022
≤ ≤≤≤
0.02
5
≤ ≤≤≤
0.12
≤ ≤≤≤
0.
12
≤ ≤≤≤
0.17
N
/S
Al ≤ ≤≤≤
0.0
10
N/S
N
/S
N/S
N
/S
N/S
0.
07...
0.
11
0.38
...
0.57
0.
18...
0.
45
≤0.
025
≤
0.01
5
4)
≤0.
012
-
≤ 4
70
- δ 5
≥32
≥
68
-
11M
n4Si
co
de:1
.049
2 0.
08...
0.
14
0.83
...
1.15
0.
18...
0.37
≤ ≤≤≤
0.02
5 ≤ ≤≤≤
0.02
5 ≤ ≤≤≤
0.12
≤ ≤≤≤
0.12
≤ ≤≤≤
0.17
N
/S
Al ≤ ≤≤≤
0.0
30
N/S
N
/S
N/S
N
/S
N/S
11M
n4Si
no
В
no В
≤ 5
50
-
δ 5≥
22
≥
55
В=0
.003
...
0.00
8
0.08
...
0.14
0.
83...
1.
15
0.18
...0.
37
≤0.
025
≤0.
015
4)
≤0.
012
В
=0.0
03...
0.
008
≤ 5
20
- δ 5
≥28
≥
63
-
11M
n4A
l co
de:1
.049
4 0.
08...
0.
14
0.83
...
1.15
≤ ≤≤≤
0.1
2 ≤ ≤≤≤
0.02
5 ≤ ≤≤≤
0.02
5 ≤ ≤≤≤
0.12
≤ ≤≤≤
0.12
≤ ≤≤≤
0.17
N
/S
Al ≤ ≤≤≤
0.0
40
N/S
N
/S
N/S
N
/S
N/S
11M
n4A
l no
В
no В
≤
550
-
δ 5≥
22
≥ 5
5
В=0
.003
...
0.00
8
0.08
...
0.14
0.
83...
1.
15
≤ 0
.12
≤0.
025
≤0.
015
4)
≤0.
012
В
=0.0
03...
0.
008
≤ 5
20
- δ 5
≥28
≥
63
-
12M
n6
code
:1.0
496
0.08
...
0.14
1.
35...
1.
65
0.08
...0.
22
≤ ≤≤≤0.
025
≤ ≤≤≤0.
025
≤ ≤≤≤0.
12
≤ ≤≤≤0.
12
≤ ≤≤≤0.
17
N/S
A
l ≤ ≤≤≤ 0
.030
N
/S
N/S
N
/S
N/S
N
/S
12M
n6
no В
no
В
≤ 5
70
- δ 5
≥24
≥
56
В=0
.003
...
0.00
8
0.08
...
0.14
1.
35...
1.
65
0.08
...0.
22
≤0.
025
≤0.
015
4)
≤0.
012
≤0.
010 В
=0.0
03...
0.
008
≤ 5
40
- δ 5
≥27
≥
60
-
13M
n6
code
:1.0
479
0.08
...
0.14
1.
35...
1.
65
0.30
...0.
45
≤ ≤≤≤0.
025
≤ ≤≤≤0.
025
≤ ≤≤≤0.
12
≤ ≤≤≤0.
12
≤ ≤≤≤0.
17
N/S
N
/S
N/S
N
/S
N/S
N
/S
N/S
13M
n6
no В
no
В
≤ 5
70
- δ 5
≥24
≥
56
В=0
.003
...
0.00
8
0.08
...
0.14
1.
35...
1.
65
0.30
...0.
45
≤0.
025
≤0.
015
4)
≤0.
012
≤0.
010 В
=0.0
03...
0.
008
≤ 5
40
- δ 5
≥27
≥
60
-
Stee
l Pro
duct
s Sp
ecif
icat
ions
III.
Wir
e ro
d /I
II.V
. Wel
ding
qua
lity
wir
e ro
d
III.
V.4
. DIN
171
45 –
wel
ding
qua
lity
wir
e ro
d
Mas
s fr
actio
n of
che
mic
al e
lem
ents
, %
Mec
hani
cal p
rope
rtie
s St
eel g
rade
3)
C
M
n Si
P
S Cr
Ni
Cu
N
5)
Oth
er
elem
ents
σв,
N/m
m2
σт,
N/m
m2
δ,
%
Ψ,
%
Proc
essa
bilit
y 6)
1 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
10M
nSi5
co
de:1
.511
2–S
G1
D
IN
0.07
...0.
11
1.03
...
1.27
0.
55...
0.75
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.1
2 ≤ ≤≤≤
0.1
2 ≤ ≤≤≤
0.1
7 N
/S
Al ≤ ≤≤≤
0.0
20
Mo
≤ ≤≤≤ 0
.12
Τ ΤΤΤi +
Zr
≤ ≤≤≤
0.13
N/S
N
/S
N/S
N
/S
N/S
10M
nSi5
no
В
no В
≤ 5
50
-
δ 5≥
26
≥
60
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.5
mm
. В
= 0
.003
...
0.00
8
0.07
...0.
11
1.03
...
1.27
0.
55...
0.75
≤
0.02
0 ≤
0.01
5 4)
≤
0.01
2
В =
0.0
03
...0.
008
≤ 5
20
- δ 5
≥28
≥
63
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
0.6
mm
11
MnS
i6
code
:1.5
125
–SG
2
DIN
0.08
...0.
13
1.33
...
1.57
0.
75...
0.95
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.1
2 ≤ ≤≤≤
0.1
2 ≤ ≤≤≤
0.1
7 N
/S
Al ≤ ≤≤≤
0.0
20
Mo
≤ ≤≤≤ 0
.12
Τ ΤΤΤi +
Zr
≤ ≤≤≤
0.13
N/S
N
/S
N/S
N
/S
N/S
11M
nSi6
no
В
no В
≤ 5
70
-
δ 5≥
24
≥
53
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.5
mm
. В
= 0
.003
...
0.00
8
0.08
...0.
13
1.33
...
1.57
0.
75...
0.95
≤
0.02
0 ≤
0.01
5 4)
≤
0.01
2
В =
0.0
03
...0.
008
≤ 5
50
- δ 5
≥28
≥
58
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
0.6
mm
10
MnS
i7
code
:1.5
130
–SG
3
DIN
0.08
...0.
13
1.63
...
1.87
0.
85...
1.13
≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.02
0 ≤ ≤≤≤
0.1
2 ≤ ≤≤≤
0.1
2 ≤ ≤≤≤
0.1
7 N
/S
Al ≤ ≤≤≤
0.0
20
Mo
≤ ≤≤≤ 0
.12
Τ ΤΤΤi +
Zr
≤ ≤≤≤
0.13
N/S
N
/S
N/S
N
/S
N/S
10M
nSi7
no
В
no В
≤
590
-
δ 5≥
23
≥ 5
2 D
irec
t dra
win
g fr
om ∅
5.
5...6
.5 to
∅ 2
.0 m
m
В =
0.0
03
...0.
008
0.08
...0.
13
1.63
...
1.87
0.
85...
1.13
≤
0.02
0 ≤
0.01
5 4)
≤
0.01
2
В =
0.0
03
...0.
008
≤ 5
70
- δ 5
≥26
≥
57
Dir
ect d
raw
ing
from
∅
5.5.
..6.5
to ∅
1.2
mm
Stee
l Pro
duct
s Sp
ecif
icat
ions
II. P
rofi
led
bars
III.
V.4
. DIN
171
45 –
wel
ding
qua
lity
wir
e ro
d
NO
TE
S: 1.
Req
uire
men
ts o
f the
Sta
ndar
d Sp
ecif
icat
ion
to th
e pr
oduc
t are
sho
wn
in b
old
lette
rs, t
he v
alue
s ac
hiev
able
by
the
mill
for a
resp
ectiv
e gr
ade
are
give
n
belo
w. N
/S –
not s
peci
fied
in th
e st
anda
rd d
ocum
enta
tion
and
rem
ains
at t
he p
rodu
cer’
s di
scre
tion.
2. It
can
be
ensu
red
thro
ugh
the
sele
ctio
n of
hea
ts u
pon
the
avai
labi
lity
of o
ther
con
curr
ent o
rder
s. It
resu
lts in
the
incr
ease
d co
sts
of p
rodu
ctio
n du
e to
the
use
of s
peci
al fe
rroa
lloys
and
a v
acuu
m tr
eatm
ent o
f ste
el.
3. A
dditi
onal
cos
ts o
n de
sulp
huri
zatio
n an
d de
phos
phor
izat
ion.
4. It
is a
chie
vabl
e th
ough
incu
rs th
e in
crea
se in
the
prod
uctio
n co
sts.
5. N
itrog
en –
as
requ
este
d by
the
cust
omer
(tot
al n
itrog
en –
up
to ≤
0.0
12, f
ree
nitr
ogen
– u
p to
≤ 0
.007
%).
6. A
ll gr
ades
bel
ong
to th
e or
dina
ry s
teel
gra
des
: gra
de U
SD7
to E
U 1
33 d
efin
ed a
s gr
ade
1CE
8; U
SD6:
to E
U 1
33 -
2CE
8;
USD
5: to
EU
133
- 2C
E8;
RSD
7: to
DIN
855
4 - G
1; R
SD10
Si: t
o D
IN 8
557
- S1S
i;RSD
10: t
o D
IN 8
557
- S1;
to E
U 1
33 –
CE
9;
11M
n4Si
: to
DIN
855
7 –
S2Si
; to
DIN
857
5 –
RE
S2Si
; to
EU
133
– C
E11
Si; 1
1Mn4
Al:
to D
IN 8
557
– S2
; to
DIN
857
5 –
RE
S2; t
o E
U 1
33 –
CE
11;
12 M
n6: t
o D
IN 8
557
– S3
; to
DIN
857
5 –
RE
S3; t
o E
U 1
33 –
CE
11M
n; 1
3 M
n6: D
IN 8
575
– R
ES3
Si;
10M
nSi5
: to
DIN
855
9 –
SG1;
to E
U 1
33 –
9M
nSi5
3KE
;
11M
nSi6
: to
DIN
855
9 –
SG2;
to E
U 1
33 –
10M
nSi6
3KE
;
- 10M
nSi7
: to
DIN
855
9 –
SG3;
to E
U 1
33 –
10M
nSi7
4KE
.
7. d
oes
not p
rodu
ce a
lloye
d, m
ulti-
allo
yed
or s
tain
less
ste
els
of th
e fo
llow
ing
grad
es 1
1CrM
o45;
11C
rMo5
5; 1
0MnM
o45;
11M
nMo4
5; 1
3MnM
o65;
11M
nMo8
5; 9
MnN
i4; 1
7MnN
i4; 1
1NiM
n54;
11N
iMn9
4; 1
2CrM
o111
0; 7
CrM
o111
0; 6
CrM
o910
; X11
CrM
o61;
X7C
rMo6
1; X
24C
rMoV
121.
.. X
10C
rNi3
09.
Av. Evandro Lins e Silva 840, Grupo 1112, CEP 22631-470, Barra da Tijuca – Rio de Janeiro – RJ – Brasil.
Tel
.: +5
5-21
-217
8-20
90 /
Fax:
+55
-21-
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