sn359-1 material comparison german-chinese 2012-06 e-1
TRANSCRIPT
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June 2012
Table of contents Page
1 Scope ........................................................ ................................................................. ................................................... 1
2 Normative references ...................................................... .............................................................. ................................ 1
3 Comparison of material designations .............................................................. .............................................................. 1
4 Comparison of material characteristics ............................................................ .............................................................. 1
Annex A1 (normative), Comparison of German and Chinese material designations, steels .............................................. 2Annex A2 (normative), Comparison of German and Chinese material designations, cast steels ....................................... 9
Annex A3 (normative), Comparison of German and Chinese material designations, cast irons ...................................... 11
Annex A4 (normative), Comparison of German and Chinese material designations, non-ferrous metals ........................ 12
Annex B1 (normative), Comparison of German and Chinese material properties, steels ................................................ 14
Annex B2 (normative), Comparison of German and Chinese material properties, cast steels ......................................... 34
Annex B3 (normative), Comparison of German and Chinese material properties, cast irons........................................... 38
Annex B4 (normative), Comparison of German and Chinese material properties, non-ferrous metals ............................ 40
1 Scope
The comparison of German and/or European and Chinese materials is based on the selection of materials in the Book ofStandards, Part 1. It is intended to help in selecting comparable Chinese materials and their use instead of the materialsspecified on the drawings.Missing material comparisons will be added in the new edition of the standard and until then can be determined by enquiringat the Standards Office.
MaterialsComparison of German and Chinese materials
Selection
SN 359-1
ICS 77.080, 77.120
No
guarantee
can
be
given
in
respectofthis
translation
InallcasesthelatestGerman-languageversion
ofthisstand
ardshallbetaken
asauthoritative
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Material designation
Basis NH, Teil 1Material No. Former design. Standard Remark Material design. Standard Remark Matching of properties:
E295 1. 0050 St 50-2 DIN EN 10025-2 - Q275 Z GB 700-88C content 0.28 to 0.38%,
only limited weldability,
Z = Fully killed steel only is permissible,identical
E335 1. 0060 St 60-2 DIN EN 10025-2 - Q 345 A GB T 1591-94 Fully killed steel is permissible identical
E360 1. 0070 St 70-2 DIN EN 10025-2 - Q 390 A GB T 1591-94 Fully killed steel is permissible identical
S235JR 1. 0038St 37-2
R St 37-2S235JRG2
DIN EN 10025-2KV at room temperature,
unkilled not permittedQ 235 B GB 700-88 Fully killed steel is permissible identical
S235J0 1. 0114R St 37-3S235J0G2
DIN EN 10025-2KV at 0C, unkilled not
permitted Q 235 CGB 700-88
Fully killed steel only permissible,
KV at 0C ,similar
S235J2 1. 0117Q St 37-3NS235J2G3
DIN EN 10025-2KV at -20C, unkilled not
permitted Q 235 DGB 700-88
Fully killed or double-killed steel is
permissible,
KV at -20C ,
similar
S275JR 1. 0044
St 44-2
S275JRG2S275JRC
DIN EN 10025-2KV at room temperature,
unkilled not permitted Q 275 Z GB 700-88
C content must be limited to 0.22%,
otherwise only limited weldability, notchimpact energy not guaranteed.
similar
Q 275 GB 700-88C content must be limited to 0.22%, notchimpact energy not guaranteed. do not use
Q 345 C GB T 1591-94Fully killed steel is permissible,
KV at 0C,similar
Q 275 GB 700-88C content must be limited to 0.22%, notchimpact energy not guaranteed.
do not use
Q 345 D GB T 1591-94Fully killed steel is permissible,
KV at -20C.,identical
S355JR 1. 0045 - DIN EN 10025-2KV at room temperature,
unkilled not permitted Q 345 BGB T 1591-94 Fully killed steel is permissible, identical
S355J0 1. 0553 S355J0G2 DIN EN 10025-2KV at 0C, unkilled not
permitted Q 345 CGB T 1591-94
Fully killed steel is permissible,
KV at room 0C,identical
S355J2 1.0577 S355J2G3 DIN EN 10025-2KV at -20C, unkilled not
permitted Q 345 DGB T 1591-94
Fully killed steel is permissible,
KV at -20C.,identical
S355N 1. 0545 StE 355 DIN EN 10025-3normalised,KV at -20C, Q 345 D GB T 1591-94 KV at -20C similar
S355NL 1. 0546 TStE 355 DIN EN 10025-3normalised
KV at -50C,Q 345 E GB T 1591-94 KV at -40C ! similar
S420N 1. 8902 StE 420 DIN EN 10025-3normalised
KV at -20C, Q 420 DGB T 1591-94 KV at -20C ! similar
S420NL 1. 8912 TStE 420 DIN EN 10025-3normalised
KV at -50C, Q 420 EGB T 1591-94 KV at -40C ! similar
S460N 1. 8901 StE 460 DIN EN 10025-3normalised
KV at -20C,Q 460 D GB T 1591-94 KV at -20C ! similar
S460NL 1. 8903 TStE 460 DIN EN 10025-3normalised
KV at -50C,Q 460 E GB T 1591-94 KV at -40C ! similar
S620Q 1.8914 StE 620V DIN EN 10025-6 quenched & tempered 18CrMnMoB Q/ZB 61-73 Fully killed steel is permissible, similar
S690Q 1. 8931 StE690V DIN EN 10025-6 quenched & tempered Q690E/Q690D GB/T 16270-96 Fully killed steel is permissible, similar
1. 0143
German
DIN EN 10025-2
Chinese
KV at 0C, unkilled notpermitted
S275J2 1. 0145
St 44-3NS275J2G3
S275J2G3CS275J2G4
Anhang/Appendix A1 (normativ) - Comparison of german and chinese material designation, steels
Engineering steels
Fine-grained engineering steels, weldable
St 44-3
DIN EN 10025-2KV at -20C, unkilled not
permitted
S275J0
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Material designation
Basis NH, Teil 1Material No. Former design. Standard Remark Material design. Standard Remark Matching of properties:
German Chinese
P235GH+N 1.0345 - DIN EN 10028-2 normalised Q245R GB 713-1997 similar
P265GH+N 1.0425 - DIN EN 10028-2 normalised not known
P355GH+N 1.0473 - DIN EN 10028-2 normalised Q345R GB 713-1997 similar
16Mo3+N 1.5415 - DIN EN 10028-2 normalised not known
13CrMo4-5+NTnormalizied and
tempering14Cr1MoR +N GB 713-1997 similar
13CrMo4-5 +NT or +QT
normalizied & temperedor
quenched & tempered14Cr1MoR +QT
13CrMo4-5 +QT quenched & tempered 14Cr1MoR +QT
C45 +C or +SH 1. 0503 C 45 DIN EN 10277-2 45 GB 699-88 Z = killed only is permissible similar
C15 +C or +SH 1. 0401 C15 DIN EN 10277-2 15 GB 699-88 Z = killed only is permissible similar
E 295GC +C or +SH 1. 0533 St 50-2 KG DIN EN 10277-2 Q 275 GB 700-88 similar
DC01 1. 0330 St 12 DIN EN 10130 08F GB 699-88 Sameness must be checked in every case similar
X20CrMoV11-1 1 .4922 X 22 CrMoV 12 1 D IN EN 10222 -2 1Cr11MoV GB 1221-92 similar
Heat-resisting steels
Bright steel products,+C = cold drawn
+SH = as rolled andturned
Bright steel products for general engineering purposes
Sheets
Flat products made of steels for pressure purpose
1.7335 - DIN EN 10028-2GB 713-1997 similar
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Material designation
Basis NH, Teil 1Material No. Former design. Standard Remark Material design. Standard Remark Matching of properties:
German Chinese
20 GB 8163-2008
Q235A GB 8162-2008
20 GB 8163-2008 KV is not guaranted similar
Q235A GB 8162-2008 KV/J 0C = min. 27 similar
P235GH 1.0345 St 35.8 DIN EN 1016-2 normalised 20GB 8163-2008GB 8162-2008
KV is not nacessary similar
P355N 1.0562 StE 355/St 52.4 DIN EN 10216-3 normalised Q345D GB 8163-2008 KV/J -20C = min. 34 similar
P460NH 1.8935 - DIN EN 10216-3 normalised Q460E GB 8163-2008 KV/J -40C = min. 27 similar
E235 1.0308 St 37.4 DIN EN 10305-4 normalised Q235C GB 8162-2008 KV/J 0C = min. 27 similar
X2CrNiMo 17-12-2 1.4404 -DIN EN 10216-5DIN EN 10217-7
solution annealing 00Cr17Ni14Mo2 GB T 14976-94 similar
X6CrNiTi18-101. 4541 X10CrNiTi 18 9
DIN EN 10216-5
DIN EN 10217-7solution annealing
0Cr18Ni10TiGB 13296-91
similar
0Cr18Ni10Ti GB T 14975-94 similar
0Cr18Ni10Ti GB T 14976-94 similar
X6CrNiMoTi17-12-2 1. 4571 X10Cr NiMoTi 18 10DIN EN 10216-5DIN EN 10217-7
solution annealing 0Cr18Ni12Mo2Ti GB T 14975-94 similar
0Cr18Ni12Mo2Ti GB T 14976-94 similar
normalised
1. 0255 QSt 37.0 DIN EN 10216-1
KV is not necessary
Tubes in stainless steels
1. 0254 St 37.0 DIN EN 10216-1
Pipes, tubes
normalisedP235TR2
P235TR1 similar
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Material designation
Basis NH, Teil 1Material No. Former design. Standard Remark Material design. Standard Remark Matching of properties:
German Chinese
C22 +N 1. 0402 C 22 N DIN EN 10083-2 normalised 20 GB 699-88 Z = ki lled is permissib le identical
C35 +N 1. 0501 C 35 N DIN EN 10083-2 normalised 35 GB 699-88 Z = ki lled is permissib le identical
C35 +QT 1. 0501 C 35 V DIN EN 10083-2 quenched & tempered 35 GB 699-88Z = killed is permissible, Agreement
required for QT instead of normalising.similar
C35E +QT 1. 1181 Ck 35 V DIN EN 10083-1 quenched & tempered 35 GB 699-88
Z = killed is permissible, Agreementrequired for QT instead of normalising. Yieldpoint at small nom. thickness differs fromEuropean material.
similar
C45 +N 1. 0503 C 45 N DIN EN 10083-2 normalised 45 GB 699-88 Z = ki lled is permissib le identical
C45 +QT 1. 0503 C 45 V DIN EN 10083-2 quenched & tempered 45 GB 699-88Z = killed is permissible, Agreementrequired for QT instead of normalising. similar
C45E +QT 1. 1191 Ck 45 V DIN EN 10083-1 quenched & tempered 45 GB 699-88
Z = killed is permissible, Agreementrequired for QT instead of normalising. Yieldpoint at small nom. thickness differs fromEuropean material.
similar
C55 +QT 1. 0535 C 55 V DIN EN 10083-2 quenched & tempered 55 GB 699-88Z = killed is permissible, Agreementrequired for QT instead of normalising.
similar
C55E +QT 1. 1203 Ck 55 V DIN EN 10083-1 quenched & tempered 55 GB 699-88
Z = killed is permissible, Agreementrequired for QT instead of normalising. Yieldpoint at small nom. thickness differs fromEuropean material.
similar
C60 +N 1. 0601 C 60 N DIN EN 10083-2 normalised 60 GB 699-88 Z = ki lled is permissib le identical
40Cr GB/T 3077-99 +QT similar
51CrV4+QT 18.159 - DIN EN 10083-1 quenched & tempered 50CrVA4 GB/T 1222 +QT similar
30CrMo GB 3077-88 Heat treatment strength to be agreed upon similar
25CrMo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings
similar
42CrMo GB 3077-88 Heat treatment strength to be agreed upon similar
42CrMo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings
similar
50CrMo EZB 1184-93 similar
50CrMo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings
similar
34Cr2Ni2Mo EZB 1184-93 similar
34Cr2Ni2Mo JB/T 6396-2006 Specification for the heavy alloy structuralsteel forgingssimilar
30Cr2Ni2Mo EZB 1184-93 similar
30Cr2Ni2Mo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings
similar
Cf 35 V 1. 1183.05 Cf 35 V DIN 17212 +QT 35 GB 699-88Z = killed is permissible, Agreementrequired for QT instead of normalising. similar
Cf 45 V 1. 1193.05 Cf 45 V DIN 17212 +QT 45 GB 699-88Z = killed is permissible, Agreementrequired for QT instead of normalising. similar
Cf 53 V 1. 1213.05 Cf 55 V DIN 17212 +QT 55 GB 699-88Z = killed is permissible, Agreementrequired for QT instead of normalising. similar
1.6580
34 CrNiMo 6 V DIN EN 10083-1
42CrMo4+QT 1.7225 42 CrMo 4 V
+QT
30 CrNiMo 8 V DIN EN 10083-1
25 CrMo 4 V DIN EN 10083-1
+QT
1.6582
30CrNiMo8+QT
1.7228 50 CrMo 4 V DIN EN 10083-1
+QT
+QT
Quenched and tempered steels, unalloyed
Flame hardening steels
Quenched and tempered steels, alloyed
50CrMo4+QT
34CrNiMo6+QT
25CrMo4+QT 1.7218
DIN EN 10083-1 +QT
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Material designation
Basis NH, Teil 1Material No. Former design. Standard Remark Material design. Standard Remark Matching of properties:
German Chinese
16MnCr5+TH 1.7131 16 MnCr 5 BF DIN EN 10084 20CrMnTi GB 3077-88 similar
16MnCr JB T 6396-92 similar
20MnCr5+TH1.7147 20 MnCr 5 BF DIN EN 10084
20CrMnTiGB 3077-88
similar
20MnCr JB T 6396-92 similar
18CrNiMo7-6 1.6587 17 CrNiMo 6 BF DIN EN 10084 17Cr2Ni2Mo JB/T 6396-92 similar
14CrMoV6-9 1.7735 - SEL 200332Cr3MoVA
38CrMoAlA? +QT and nitiding similar
34CrAlMo5-10 1.8507 - DIN EN 10085 38CrMoAl GB/T 3077-99 similar
60WCrV 7 1.2550 60 WCrV7 DIN EN ISO 4957 6 Cr W 2 Si GB 1299-85 similar
102Cr6 1.2067 100Cr6 DIN EN ISO 4957 Cr2 GB 1299-85 similar
X35CrMo17 1.4122 - - HRC 54+/-2 4Cr13 GB 1220 HRC min. 50 similar
21 CrMoV 5-11+QT 1. 8070 - - +QT 12Cr1MoV+QT GB/T 3077 +QT similar
X20CrMoV11-1 1.4922 X 20 CrMoV 12 1 DIN EN 10222-2 1Cr11MoV GB 1221-92 similar
20 GB 699-88 Notch impact energy not guaranteed do not use
16MnDR GB 3531-96 similar
20Mn2 GB 3077-88 similar
C22 1.0402 C 22 DIN EN 10250-2 20 GB 699-88 Z = ki lled is permissib le similar
20Mn5 1.1133 20 Mn 5 DIN EN 10250-2 20Mn2 GB 3077-99 similar
20SiMn GB 3077-99 similar
28Mn6 1.1170 30Mn5 DIN EN 10250-2 +QT 35SiMnGB/T 3077-99JB/T 6396-92
+QT similar
C35E1.1181 Ck 35 DIN EN 10250-2
35GB 699-88 Z = ki lled is permissib le
identicalC45E 1.1191 Ck 45 DIN EN 10250-2 45 GB 699-88 Z = ki lled is permissib le identical
45H GB 5216-85 similar
C60E 1.1221 Ck 60 DIN EN 10250-2 60 GB 699-88 Z = ki lled is permissib le identical
30CrMo GB 3077-88 Heat treatment strength to be agreed upon similar
25CrMo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings
similar
35CrMo GB 3077-88 Heat treatment strength to be agreed upon similar
35CrMo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings
similar34CrMo4+QT 1.7220 34 CrMo 4 DIN EN 10250-3 +QT
+QT25CrMo4+QT 1.7218 25 CrMo 4 V DIN EN 10083-1
Steels for forgings
S355J2G3 1.0570 St 52-3 DIN EN 10250-2
Tool steel
Nitriding steels
Case hardening steels
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Material designation
Basis NH, Teil 1Material No. Former design. Standard Remark Material design. Standard Remark Matching of properties:
German Chinese
42CrMo GB 3077-88 Heat treatment strength to be agreed upon similar
42CrMo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings similar
50CrMo EZB 1184-93 similar
50CrMo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings
similar
30Cr2Ni2Mo EZB 1184-93 similar
30Cr2Ni2Mo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings similar
34Cr2Ni2Mo EZB 1184-93 similar
34Cr2Ni2Mo JB/T 6396-2006Specification for the heavy alloy structuralsteel forgings
similar
33NiCrMoV14-5 1.6956 33 NiCrMoV 14 5 DIN EN 10250-3 +QT Not known Not known -
32CrMo12 1.7361 - SEW 550 +QT 30Cr2Ni2Mo E ZB 1184-93 +QT similar (~)
X20Cr13 1.4021 X 20 Cr 13 DIN EN 10250-4 2Cr13 or 3Cr13 GB/T 1220-92 similar
2Cr13 or 3Cr13 GB 1221-92 similar
2Cr13 or 3Cr13 GB 8732-88 similar
X17CrNi16-2 1.4057 X 17 CrNi 16 2 DIN EN 10250-4 1Cr17Ni2 GB/T 1220-92 similar
1Cr17Ni2 GB 1221-92 similar
X4CrNi18-10 1.4301 X 5 CrNi 18 9 DIN EN 10250-4 solution annealing 0Cr18Ni9 GB/T 1220-92 similar
X6CrNiTi18-10 1.4541 X 10 CrNiTi 18 9 DIN EN 10250-4 solution annealing 0Cr18Ni10Ti GB/T 1220-92 similar
0Cr18Ni10Ti GB 1221-92 similar
X6CrNiMoTi17-12-2 1.4571 X 10 CrNiMoTi 18 10 DIN EN 10250-4 solution annealing 0Cr18Ni12Mo2Ti GB/T 1220-92 similar
X5CrNiMo17-12-2 1.4401 X 5 CrNiMo17 12 2 DIN EN 10250-4 solution annealing 0Cr17Ni12Mo2 GB/T 1220 / 1221-92 similar
00Cr17Ni14Mo2 GB/T 1220-92 similar
X4CrNiMo16-5-1 1.4418 - DIN EN 10250-4 solution annealing Not known Not known -
+QT
50CrMo4+QT 1.7228 50 CrMo 4 V DIN EN 10083-1
+QT34CrNiMo6+QT 1.6582 34 CrNiMo 6 V DIN EN 10083-1
+QT
30CrNiMo8+QT 1.6580 30 CrNiMo 8 V DIN EN 10083-1
Steels for forgings (continued)
42CrMo4+QT 1.7225 42 CrMo 4 V DIN EN 10083-1 +QT
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Material designation
Basis NH, Teil 1Material No. Former design. Standard Remark Material design. Standard Remark Matching of properties:
German Chinese
X20Cr13 1.4021 X 20 Cr 13 DIN EN 10088-1 to 3 2Cr13 GB/T 1220-92 similar
X46Cr13 1.4034 X 46 Cr 13 DIN EN 10088-1 to 3 HRC min. 55 4Cr13 GB/T 1220-92 HRC min 50 similar
X17CrNi16-2 1.4057 X 17 CrNi 16 2 DIN EN 10088-1 to 3 1Cr17Ni2 GB/T 1220-92 similar
1Cr17Ni2 GB 1221-92 similar
1Cr17Ni2 GB 3280-92 similar
1Cr17Ni2 GB 4356-84 similar
1Cr17Ni2 (-R) GB T 4240-93 similar
1Cr17Ni2 GB T 4231-93 similar
ML1Cr17Ni2 GB 4232-93 similar
X4CrNi18-10 1.4301 X 5 CrNi 18 9 DIN EN 10088-1 to 3 0Cr18Ni9 GB/T 1220-92 similar
X5CrNiMo17-12-2 1.4401 X 5 CrNiMo17 12 2 DIN EN 10088-1 to 3 solution annealing 0Cr17Ni12Mo2 GB/T 1220-92 similar
X6CrNiTi18-10 1.4541 X 10 CrNiTi 18 9 DIN EN 10088-1 to 3 solution annealing 0Cr18Ni10Ti GB/T 1220-92 similar
0Cr18Ni10Ti GB 1221-92 similar
0Cr18Ni10Ti GB 3280-92 similar
0Cr18Ni10Ti GB 4237-92 similar
0Cr18Ni10Ti GB 4238-92 similar
0Cr18Ni10Ti GB 4356-84 similar
X6CrNiMoTi17-12-2 1. 457 1 X 10 CrN iM oT i 18 1 0 DI N E N 1 008 8-1 t o 3 s ol ut ion a nne al ing 0Cr18Ni12Mo2Ti GB T 4237-92 similar
Stainless steels
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Material designation
Basis NH, Teil 1Material No. Former design. Standard Remark Material design. Standard Remark Matching of properties:
GS200 1. 0449 GS-38N DIN EN 10293 normalised ZG 200 - 400 GB 11352-89For weldet parts the C-content must be 150 185 21
3 - 16 235 26
16 - 40 225 26
40 - 63 215 25
63 - 80 215 24
80 - 100 215 24
100 - 150 195 22
150 - 200 185 21
200 - 250 175 21
16 235 26
16-40 225 25
40-60 215 2460-100 205 23
100-150 195 22
>150 185 21
3 - 16 275 21
16 - 40 265 21
40 - 63 255 20
St 44-2 63 - 80 245 19
Fe 430 B 80 - 100 235 19
S275JRG2 100 - 150 225 400-540 19
150 - 200 215 380-540 18
200 - 250 205 18
16 275 20 -
16-40 265 19 -
40-60 255 18 -
60-100 245 17 -
100-150 235 16 -
>150 225 15 -
Q295B GB/T 1591-94 16 295
16-35 27535-50 255
50-100 235
20 0,16 0,55 0,80 -1,50
0,12 -0,20
0,30
S235J0 +N DIN EN 10025-2 1.0114
340-470
- 0,19 - 1,50 0,04 0,04 - - Cu max. 0,60027 - 0,014 Unkilled not permitted
320-470
0,12 -
0,200,30
0,30
-
0,70
0,045 0,045
34
Q235C GB 700-88Z = Fully killed steel is permissible
+N Normalised is permissible
S235J2 +N DIN EN 10025-2 1.0117
340-470
-
0
0,045
DIN EN 10025-2 1.0044
Q275 Z GB 700-88 0,05490-630
320-470
+N
+N
0,28
-
0,38
0,35
0,50
-
0,80
1,50
-
410-56027
23
27
27
375-460 -
23
Q235D GB 700-88 375-460
0,25
--+N
- 27 Z = Fully killed steel is permissible+N Normalised is permissible
--
0,04
0,035 0,035
1,60 0,045 0,045
0,30
-
0,70
0,045-20
20
S275JR +N
-
20
390 - 570
C content must be limited to 0.22%, otherwise only
limited weldability.
Notch impact energy not guaranteed.
Z = Fully killed steel is permissible
+N Normalised is permissible
0,04
Cu max. 0,60 Fully killed steel is permissible
0,24
-
0,045
--20 0,19
Z = Fully killed steel is permissible+N Normalised is permissible
Unkilled not permitted0,014 Cu max. 0,60
Non-alloy
structuralsteels
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
3 - 16 275 21
16 - 40 265 21
40 - 63 255 20
63 - 80 245 19
80 - 100 235 19
100 - 150 225 400-540 19
150 - 200 215 380-540 18
200 - 250 205 18
16 275 20
16-40 265 19
40-60 255 18
60-100 245 17
100-150 235 16
>150 225 15
3 - 16 275 21
16 - 40 265 21
40 - 63 255 20
St 44-2 63 - 80 245 19
Fe 430 B 80 - 100 235 19
S275JRG2 100 - 150 225 400-540 19
150 - 200 215 18
200 - 250 205 18
16 275 20
16-40 265 19
40-60 255 18
60-100 245 17
100-150 235 16
>150 225 15
3 - 16 355
16 - 40 345
40 - 63 335 19
63 - 80 325
80 - 100 315
100 - 150 295 18
1 50 - 200 285
2 00 - 250 275
16 345
16-35 325
35-50 315
50-100 275
Z = Fully killed steel is permissible
+N Normalised is permissible0,040,20 0,55
Cu max. 0,60
20
- 20
- 34 20 V 0,02-0,15
Nb0,015-
0,060
Ti0,02-0,20
C content must be limited to 0.22%, otherwise only
limited weldability.Notch impact energy not guaranteed.
Z = Fully killed steel is permissible
+N Normalised is permissible
27-
S355JR +N DIN EN 10025-2 1.0045 - +N Unkilled not permitted
22 1,00
-
1,60
0,04
- -
0,0450,27 1,70 0,045
Q345B GB 1591-94 Normalized
17
18 0,014
27 0 0,21 -
Fully killed steel is permissible0,21 0,035- 1,60 0,035 -
C content must be limited to 0.22%, otherwise only
limited weldability.
Notch impact energy not guaranteed.
Z = Fully killed steel is permissible
+N Normalised is permissible
S275J2 +N Cu max. 0,60
Q275Z
-20
0,60
0,04 0,04
0,05 0,045490-630
380-540
27
1.0145
410-560
490-630 -
+N
0,50
-
0,80
DIN EN 10025-2
0,35GB 700-88
0,28
-
0,38
0,50
-
0,80
0,05 0,045
-
470-630
--
450-600
0,012 Cu max. 0,60 Unkilled not permitted
470-630
-
0,35
410-560
1,60
0,28
-
0,38
S275J0 +N DIN EN 10025-2 1.0143
Q275Z GB 700-88
+N
Non-alloystructuralsteels
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
3 - 16 355
16 - 40 345
40 - 63 335 19
63 - 80 325
80 - 100 315
1 00 - 150 295
1 50 - 200 285
2 00 - 250 275
16 345
16-35 325
35-50 315
50-100 275
3 - 16 355
16 - 40 345
40 - 63 335 19
63 - 80 325
80 - 100 315
1 00 - 150 295
1 50 - 200 285
2 00 - 250 275
100 315 490 20 35
100 - 250 275 18 30
250 - 500 265 18 27
16 345
16-35 325
35-50 295
50-100 275
3 - 16 355
16 - 40 345
40 - 63 335 19
63 - 80 325
80 - 100 315
1 00 - 150 295
1 50 - 200 285
2 00 - 250 275
16 345
16-35 325
35-50 295
50-100 275
-
Normalized
-40
0,55
Z = Fully killed steel is permissible
+N Normalised is permissible0,025
470-630 27 1,00
-1,60
0,18
V 0,02-0,15
Nb0,015-
0,060Ti0,02-0,20
Al 0,015
0,23
27
+N
V 0,02-0,15
Nb0,015-
0,060
Ti0,02-0,20
Al 0,015
0,035S355J0 +N DIN EN 10025-2 1.0553
Q345C GB 1591-94
470-630 22
Unkilled not permitted
450-60017
180,0121, 60 0 ,0 35
Z = Fully killed steel is permissible
+N Normalised is permissible
Cu max. 0,60-
470-630
20
-
0,0350,18 0,55
1,00
-
1,60
0,035
27 0 0,24 0,55
Cu max. 0,60
S355K2 +N DIN EN 10025-2
Steel for forgings
- 27 -20DIN EN 10025-2 1.0577
470-630
18+N
17
0,035
0,23
0,22 0,55 1,6 0,035
1,70
0,08 0,3
Al min. 0,020
Cr+Mo+Ni
max. 0,48
Cu max. 0,60 Fully killed steel is permissible
450-600
0,035
33
470-630-30
1,700,60
20
-
17
18
22 -
S355J2 +N
S355J2 +N
-20
0,035
0,24
Q345D
1,00
-
1,60
- 34
20
22
Normalized
-
1.0570
0
0,03
0,035 0,3
0,03
Fully killed steel is permissible
470-630
0,18
0,035
+N
GB 1591-94
DIN EN 10250-2
0,24
0,60
1.0596
Q345E GB 1591-94
-20
450 - 600
-20
450
V 0,02-0,15
Nb0,015-
0,060
Ti0,02-0,20
AL0,015
34
0,55
0,025
Z = Fully killed steel is permissible
+N Normalised is permissibleNormalized
+N
Non-alloy
structuralsteels
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SN359-1 : 2012-06
Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 355 270
16-40 345 AL>0,020%
40-63 335 Cu
-
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SN359-1 : 2012-06
Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 420
16-40 400 AL>0,020%
40-63 390 Cu
-
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SN359-1 : 2012-06
Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
3 - 50 620
50 - 100 580
100 - 150 560 650-830
18CrMnMoB Q/ZB 61-73 +QT 100-300 735 883 13 40 269-3020,17 -
0,23
0,20 -
0,40
1,20 -
1,500,03 0,03
1,50 -
1,80
0,45 -
0,55
B 0,001-
0,0035Fully killed steel is permissible
300-500 686 834 13 40 255-286
500-800 588 785 13 40 241-286
3 - 50 620
50 - 100 580
100 - 150 560 650-830
3 - 50 690 770-940
50 - 100 650 760-930
100 - 150 630 710-900
3 - 50 690 770-940
50 - 100 650 760-930
100 - 150 630 710-900
DIN EN 10025-6 1.8931
Highyieldstrengthstructuralsteels
0,55
1,00
-
1,60
770-940 14Q 690 E GB 16270-96 +QT
50 690
0,18 0,025- 27 -40
Cu 0,60
Nb0,06
Ti0,05
B0,005
KV at -40C
max. 0,10 V
max. 0,06 Nb
0,20 Ti
0,003 B
Fully killed steel is permissible
KV at -40C!50-100 670
0,025 0,80 0,60 1,20
0,20 0,025 0,015 2,00 0,025
Q 690 D GB 16270-96 +QT
1,500,015
50 690
S 690 Q +QT
1, 20 0, 60 1, 500,18 0,55
1,00
-
1,60
0,03- 40 -20 0,03
Q 620 E GB 16270-96 +QT
StE 690 V
S 690 QL DIN EN 10025-6 0,80max.
1,7030 -40
15
1.8928
max. 0,10 V
max. 0,06 Nb
0,20 Ti
0,003 B
0,025- 2 7 -40 0,025 0,80 0,60 1,20
14 -
+QT
30 -20
14
50-100 670
S 620 QL DIN EN 10025-6 1.8927 TStE 620 V
700-89015 - 30
-40700-890
15
49
J/cm220
2,000,20 0,80max.
1,700,025 0,015 0,701,50- 30+QT
KV at -20CS 620 Q DIN EN 10025-6 1.8914 StE 620 V +QT 0,70 2,00 0,025
Cu 0,60
Nb0,06
Ti0,05
B0,005
0,025 0,015 1,50
-20 0,18 0,55
0,80max.
1,70-20 0,20
1,00
-
1,6050-100
40 0,60 1,20
max. 0,10 V
max. 0,06 Nb
0,20 Ti
0,003 B
Fully killed steel is permissibleKV at -20C!
KV at -20C
Fully killed steel is permissible
KV at -40C!
620
720-890
50
0,18 0,55
1,00
-
1,6050-100 600
0, 70 2, 00 0, 02 50,20
1 ,50 0, 70
0,80max.
1,700,025
max. 0,10 V
max. 0,06 Nb
0,20 Ti
0,003 B
Fully killed steel is permissible
KV at -20C!
600
720-890 15
50 620
0,03
770-940
0,03 0,80Q 620 D GB 16270-96 +QT -
0,025
Cu 0,60
Nb0,06
Ti0,05
B0,005
KV at -40C
Cu 0,60
Nb0,06
Ti0,05
B0,005
TStE 690 V 14 -
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SN359 1 : 2012 06
Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 235
16-40 225
40-60 215
60-100 200
100-150 185 350-480
150-250 170 340-480
3-16 245
16-36 235
36-60 225
60-100 205 390-510
100-150 185 380-500
16 265
16-40 255
40-60 245
60-100 215
100-150 200 400-530
150-250 185 390-530
not known
16 355
16-40 345
40-60 335
60-100 315 490-630
100-150 295 480-630
150-250 280 470-630
3-16 345 510-640
16-36 325 500-630
36-60 315 490-620
60-100 305 490-620
100-150 285 480-610
150-200 265 470-600
21
20
34 0 0,551,20-
1,600,025+N
510-650
20 27 -20
Alges 0,020
Cu 0,30
Nb 0,040
Ti max. 0,03
V 0,02
0,012+N1.0,473DIN EN 10028-2P355GH+N0,10-
0,220,300,080,300,0100,025
1,10-
1,700,60
DIN EN 10028-2P265GH+N 0,20 0,025 0,010 0,300,400,80-
1,400, 08 0, 30 0, 01 2
Alges 0,020
Cu 0,30
Nb 0,020
Ti max. 0,03
V 0,02
GB713Q345R 0,20 0,015
+NGB713Q245R
1.0425
0,350,50-
1,000,025 0,015
+N
0,08 0,30 0,12
Alges. 0,020
Cu 0,30
Nb 0,020
Ti max. 0,03
V 0,02
+N 0,025 0,0100,16 0,351.0345DIN EN 10028-2P235GH+N -20-
0
0,60 -
1,20
400-520 25
24
31
360-480
24 27
410-530
22 27 -20
0,20
Non-alloyandalloysteelswith
specifiedelevatedtemperatureproperties
0,30
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 275
16-40 270
40-60 260
60-100 240 430-580
100-150 220 420-570
150-250 210 410-570
not known
16 300
16-60 290
60-100 270 440-590
100-150 255 430-580
6-100 310 520-680
100-150 300 510-670
100-150 255 430-590
150-250 245 420-570
6-100 310 520-680
100-150 300 510-670
16-40 - 470 -
40-63 - 610 -
63-100 - 820 -
5-10 510 650-950 6
10--16 420 600-900 7
16-40 320 550-850 8
40-63 300 520-770 9
63-100 255 470-740 9
16 275 20
16 - 40 265 19
40 - 60 255 18
60 - 100 245 17
100 - 150 235 16
>150 225 15
Brightsteelforgeneralengineering
purposes
34 200,50-
0,80+QTGB71314Cr1MoR
0,05-
0,17
0,40-
0,650,020 0,010
1,15-
1,50
0,45-
0,65
0,45-
0,65
19 27 20+QT1.7335DIN EN 10028-213CrMo4-5+QT0,08-
0,180,35
0,40-
1,000,025 0,010
0,70-
1,15
0,40-
0,600,012 Cu 0,30
1.73350,08-
0,180,35
0,40-
1,00DIN EN 10028-213CrMo4-5+NT
19 34 20+NTGB71314Cr1MoR0,05-
0,17
0,50-
0,80
0,40-
0,65
0,40-
0,60
0, 01 0 0, 300,25-
0,350,30
0,025 0,010
450-600
19
31
27
200,70-
1,150,012 Cu 0,30
440-590
22 31 20 0,35 0,012 Cu 0,30+N1.5415DIN EN 10028-20,40-
0,900,02516Mo3+N
+NT
0,009- - 0,045
Fully killed steel is permissible
+SH
(as rolled andturned)
+ C(cold drawn)
140-181- - -
0,28 -
0,38
-
Q275 GB 700-88 490-630 -
0,045
0,350,50 -
0,800,05
E295GC DIN EN 10277-2 1.0533 St50-2KG Unkilled not permitted
0,045
0,12-
0,20
0,020 0,0101,15-
1,50
19
- -
Non-alloyandalloysteelswithspecified
elevated
temperatureproperties
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16-40 - -
40-63 - -
63-100 - -
5-10 565 750 - 1050 7
10--16 500 710 - 1030 8Cr+Mo+Ni
max. 0,63
16-40 410 650 - 1000 9
40-63 360 630 - 900 11
63-100 310 580 - 850 12
16-40 - -
40-63 - -
63-100 - -
5-10 380 500-800 7
10--16 340 480-780 8
16-40 280 430-730 940-63 240 380-670 11
63-100 215 340-600 12
DC01 DIN EN 10130 1.0330 St 12 03 +LC 3 140 270 - 410 28 - - - - 0,12 - 0,60 0,045 0,045 - - - -
08F GB 699-88 25 175 295 35 60 - - 1310,05 -
0,110,03
0,25 -
0,500,035 0,035 0,10 - 0,25 - Cu 0,25 Samenes s m ust be checked in ev ery cas e.
Brightsteelforgeneralengineeringpurposes
Sheets
Fully killed steel is permissible
330-600
- - -
27
Unkilled not permitted
0,25 Cu 0,25
0,0450,12 -
0,180,40
0,30 -
0,800,045
- - 98-178
16
580 - 820
0,0450,045
0,17 -
0,37
0,50 -
0,8045 GB 699-88
- 172 - 242
0,035
1.0503
-
0,400,400,50 -
0,80-- -
-
143- 0,2515 GB 699-88 375225 0,035
C15 DIN EN 10277-2
C45 DIN EN 10277-2
550,12 -
0,190,035
0,35 -
0,65
0,17 -
0,37
600 40 39 20 229
-
-
0,42 -
0,50
Normalized
1.0401
+ C
(cold drawn)
+SH(as rolled
and turned)
C45
+SH(as rolled and
turned)
355 0,250,42 -
0,50
Unkilled not permitted0,40 0,10
Cu 0,25 Fully killed steel is permissible0, 03 5 0, 25
C15
+ C(cold drawn)
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 235
16-40 225
40-60 215
20GB 8162-2008
GB 8163-2008- 16 245 410-530 20 - - - - - - - -
GB8162-2008 Seamless tubes used for construction
GB8163-2008 Seamless tubes used for liquid
transmitting
Q235A GB 8162-2008 - 16 235 375-500 25 - - - 0,22 0,35 1,40 0,030 0,030 GB8162-2008 Seamless tubes used for construction
16 235
16-40 225
40-60 215
20GB 8162-2008
GB 8163-2008- 16 245 410-530 2 0 - - - - - - - - - - -
GB8162-2008 Seamless tubes used for construction
GB8163-2008 Seamless tubes used for liquid
transmitting
Q235C GB 8162-2008 - 16 235 375-500 25 - 27 0 ? ? ? ? ? GB8162-2008 Seamless tubes used for construction
16 235
16-40 225
40-60 215
20GB 8162-2008
GB 8163-2008- 16 245 410-530 20 - - - - - - -
GB8162-2008 Seamless tubes used for construction
GB8163-2008 Seamless tubes used for liquid
transmitting
12
12-20
20-40 345
40-50 335
50-65 325
65-80 315
80-100 305
Q345DGB 8162-2008
GB 8163-2008- 16 345 470 - 630 21 - 34 -20 - - - - -
GB8162-2008 Seamless tubes used for construction
GB8163-2008 Seamless tubes used for liquid
transmitting
Q235C GB 8162-2008 15 245 390-530 20 - 27 00,17 -
0,24
0,17-
0,37
0,35-
0,650,035 0,035 - - - - GB8162-2008 Seamless tubes used for construction
P460NH DIN EN 10216-3 1.8935 - Normalized 12 460 560-730 19 - 40 -20 0,20 0,601,00-
1,700,025 0,02 0,30 0,10 0,80 0,020
Al gesamt.
min.0,020
Q460EGB 8162-2008
GB 8163-2008- 16 460 550 - 720 17 - 34 -20 - - - - -
GB8162-2008 Seamless tubes used for construction
GB8163-2008 Seamless tubes used for liquid
transmitting
- - 0,04 0,04P235TR2 DIN EN 10216-1 1.0255 QS t 37.0 Norm al ized 360 - 500 - -25 - - -100 -
1400,17 -
Non-alloysteelfortubes
360 - 500
- Nb0,009
- - - Nb0,0090,0425
450 - 590
-
0,300.90 -
1,70
E 235 +N DIN EN 10305-4 Normalized 340 - 480
355 490 - 650
490 - 630
235
P235TR1 DIN EN 10216-1 1.0254 St 37.0
P235GH DIN EN 10216-2 1.0345 St 35.8 Normalized 360 - 500 25
--100 -
140
22 -
-100 -
140- -
55
0,17 0,35 1,20-
- 0,17 -- - 0,04
- - - -
0,025 0,02
-
P355N DIN EN 10216-3 1.0562
25
St 52.4 / StE 355
1.0308
-
20145 -
1850,20 0,50
0,17 Nb0,009- 0,04 0,04 - -
0, 50 0 ,02
Alges.
min.0,020
Cu max.0,30
Nb max.0,05
Ti max.0,040
V max.0,10
0,08
-
0,025 0,015 -
Normalized
Normalized
-
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
100 300 530 22 - 50 20
100 - 250 280 520 22 - 50 20
250 - 500 260 500 22 - 40 20
500 -
1000250 490 22 - 40 20
20Mn2 GB 3077-88 15 590 785 10 40 47 20max.
187
0,17 -
0,24
0,17 -
0,37
1,40 -
1,800,035 0,035 0,30 - 0,30 Cu max. 0,30 Z = Fully killed steel is permissible
600 265 470 15 30 39 20
600 - 900 255 450 14 30 39 20
16 590 800 - 950 13 40 35 20
16 - 40 490 700 - 850 15 45 40 20
40 - 100 440 650 - 800 16 50 40 20
100 310 600 18 - 35 20
100 - 250 290 570 18 - 30 20
250 - 500 270 540 18 - 25 20
500 -
1000260 540 17 - 20 20
35SiMn GB/T3077-99 100 510 785 15 45 47 20 235-286JB/T6396-2006 101 - 300 440 735 14 35 39 20 217-269
301 - 400 390 685 13 30 35 20 207-255
401 - 500 375 635 11 28 31 20 196-255
16 240 430 24 - - -
16 - 100 210 410 25 - - -
C22 DIN EN 10250-2 1.0402 C22N +N 100 210 410 25 - - - max. 156 Steel for forgings
20 GB 699-88 Normalized 25 245 410 25 55 - - max. 1560,17 -
0,24
0,17 -
0,37
0,35 -
0,650,035 0,035 0,25 0,25 Cu 0,25 Fully killed steel is permissible
Steelsunalloydoralloyd,normalizedorquenchedandtempered/Steelforgings
C22 DIN EN 10083-2 1.0402 C22N
DIN EN 10250-2
1.1170DIN EN 10083-1 30 Mn 5
1.1170 30 Mn 5
+QT
+QT
Quenched and
tempered0,035 0,035
Steel for forgings
0,32 -
0,40
1,10 -
1,40
0,035 0,40 0,10 0,40 -
Al min. 0,020
Cr+Mo+Ni
max. 0,63
1,30 -
1,65
0,25 -
0,320,035
28Mn6
28Mn6
1,10 -
1,40
+N Unkilled not permitted
0,40
0,035
0,60 -
0,80
1,00 -
1,30
1,00 -
1,50
0,16 -
0,22
0,40
0,045Cr+Mo+Ni
max. 0,630,045 -0, 40 0, 10 0, 40
0,035 0,035
20Mn5 DIN EN 10250-2 1.1133 20 Mn 5Al min. 0,020
Cr+Mo+Ni
max. 0,63
0,40 0,10 0,40 - Steel for forgings
0,17 -
0,24
max. 1560,40
0,40 -
0,70
0,035
20SiMn GB 3077-99
+N0,17 -
0,23
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 300 550 18
16 - 100 270 520 19
100 - 250 245 500 19
16 430 630 - 780 17 40
16 - 40 380 600 - 750 19 45
40 - 100 320 550 - 700 20 50
16 430 630 - 780 17 40
16 - 40 380 600 - 750 19 45
40 - 100 320 550 - 700 20 50
100 270 520 30
100 - 250 245 500 25
250 - 500 220 480 20
CK35 500 - 1000 210 470 18 17
00 - 1000 245 490 - 610 20 -
70 320 550 20 35
70 - 160 290 490 22 31
160 - 330 270 470 21 25
35 GB 699-88Normalized or
quenched and
tempered
25 315 530 20 45 55 20 max. 1560,32 -
0,40
0,17 -
0,37
0,50 -
0,800,035 0,035 0,25 0,25 Cu 0,25 Fully killed steel is permissible
16 340 620 14
16 - 100 305 580 16
100 - 250 275 560 16
16 490 700 - 850 14 35
16 - 40 430 650 - 800 16 40
40 - 100 370 630 - 780 17 45
16 490 700 - 850 14 35
16 - 40 430 650 - 800 16 40
40 - 100 370 630 - 780 17 45
100 305 580 -
100 - 250 275 560 18
250 - 500 240 540 15
CK45 500 - 1000 230 530 15 12
00 - 1000 295 590 - 720 15 -
70 370 630 17 25
70 - 160 340 590 18 22
160 - 330 320 540 17
20
45 EZB 1183-93Quenched and
tempered500 700 - 850 14 30 31 20 -
45 GB 699-88Normalized or
quenched and
tempered
25 355 600 16 40 39 20 max. 229
45H GB 5216-85 Structural steels with defined hardenability scatterband
Steelsunalloydoralloyd,normalizedor
quenchedandtempered/Steelforgings
1.0501 C35N
C35E +QT DIN EN 10083-1
35
35
C35 +N DIN EN 10083-2
+N
1.1181
0,40 -Cr+Mo+Ni
max. 0,63
Unkilled not permitted
Not known
Fully killed steel is permissible0,035
0,40 0,10
C35 +QT DIN EN 10083-2 1.0501
-
C35V
- -+N
+QT
0,40 0,10 0,40 -0,40
0,40
20
-0,0350,400,50 -
0,800,035Ck35V +QT
+QT 20
0,045
0,035
19
- -0,32 -
0,39
0,50 -
0,800,035
Unkilled not permitted20
+QT 25 20
0,0350,32 -
0,39
0,400,50 -
0,80
0,035
0,045
0,045
+N
Cr+Mo+Ni
max. 0,63
Cr+Mo+Ni
max. 0,63Unkilled not permitted0,40 -
max. 207
16
-
Cr+Mo+Ni
max. 0,63Unkilled not permitted
0,50 -
0,80
Steel for forgings
Unkilled not permitted
-
0,40 0,10
0,40Cr+Mo+Ni
max. 0,630,100,40
20
Unkilled not permitted0,0450,32 -
0,390,40
0,50 -
0,80
-
0,40 0,40Cr+Mo+Ni
max. 0,630,10
Cr+Mo+Ni
max. 0,63
C45E +QT DIN EN 10083-1 1.1191 Ck45V +QT 25 20
0,40
0,10
0,42 -
0,50
- max. 207 0,045 0,400,42 -
0,50
0,40
0,400,50 -
0,800,045 0,045 0,10
C45N +N - -0,50 -
0,80
C45V
0,42 -
0,500,40
0,50 -
0,800,40 -
0,25 Cu 0,25
Steel for forgings0,40Cr+Mo+Ni
max. 0,63
0, 03 5 0, 25
0,035
0,045
0,42 -
0,50
0,17 -
0,37
0,50 -
0,80
DIN EN 10083-2 1.0503
C35EDIN EN 10250-2
SEW 5501.1191
DIN EN 10083-2 1.0503
+QT
0,42 -
0,50
20
20
-0, 03 5 0, 40 0, 100,40
0,32 -
0,39
max. 156
C45 +N
C45 +QT
C45EDIN EN 10250-2
SEW 5501.1191
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 550 800 - 950 12 30
16 - 40 490 750 - 900 14 35
40 - 100 420 700 - 850 15 40
16 550 630 - 780 12 30
16 - 40 490 600 - 750 14 35
40 - 100 420 550 - 700 15 40
55 GB 699-88Normalized or
quenched and
tempered
25 375 630 14 40 31 20 max. 2410,52 -
0,60
0,17 -
0,37
0,50 -
0,800,035 0,035 0,25 0,25 Cu 0,25 Fully killed steel is permissible
16 340 620 14
16 - 100 305 580 16
100 - 250 275 560 16
100 340 670
100 - 250 310 650
250 - 500 275 630
500 - 1000 260 620 10
00 - 1000 345 680 - 830 12
70 450 750 14
70 - 160 390 690 15
160 - 330 350 670 14
60 GB 699-88 Normalized 25 400 675 12 35 - - max. 2550,57 -
0,65
0,17 -
0,37
0,50 -
0,800,035 0,035 0,25 0,25 Cu 0,25 Fully killed steel is permissible
16 700 900 - 1100 12 50 45 20
16 - 40 600 800 - 950 14 55 50 20
40 - 100 450 700 - 850 15 60 50 20
100 - 160 400 650 - 800 16 60 45 20
70 450 700 15 50 20
70 - 160 400 650 17 45 20
160 - 330 380 600 18 38 20
30CrMo GB 3077-88 25 785 930 12 50 63 20 2290,26 -
0,34
0,17 -
0,37
0,40 -
0,70 0,035 0,0350,80 -
1,10
0,15 -
0,25 Fully killed steel is permissible
17-40 590 780-930 14 55 55* 20 229-286 * DVM Specimen, no KV
41-100 460 690-830 15 60 55* 20 207-255
101-160 410 640-780 16 60 48* 20 196-255
16 800 1000 - 1200 11 45 35 20
16 - 40 650 900 - 1100 12 50 40 20
40 - 100 550 800 - 950 14 55 45 20
100 - 160 500 750 - 900 15 55 45 20
160 - 250 450 700 - 850 15 60 45 20
70 550 800 14 45 20
70 - 160 450 700 15 40 20
160 - 330 410 650 16 33 20
25 835 980 12 45 63 20 229
100 510 785 15 45 47 20 235-286
101-300 490 685 15 45 39 20 207-255
301-400 440 635 15 35 31 20 196-255
401-500 390 590 12 30 23 20 176-241
0,90-
1,20
0,15-
0,30
C55V +QT - -
0, 03 5 0, 40
0,400,60 -
0,90Unkilled not permitted0,045 0,045 0,40
0,50-
0,80
0,40 -
0,700,035
0,22-
0,29
0,035
0,035 0,035
-Ck55V
35CrMo
0,17-
0,37
0,17 -
0,37
0,40
0,400,60 -
0,90
Fully killed steel is permissible0,80 -
1,10
Unkilled not permitted0,40 0,10 0,40 -0,035 0,035
Unkilled not permitted0,10 0,40 -Cr+Mo+Ni
max. 0,63
0,60 -
0,90
0,035+QT -
Cr+Mo+Ni
max. 0,63
0,10 0,40 -Cr+Mo+Ni
max. 0,63
-+QT25CrMo4 DIN EN 10250-3
- -
Steel for forgings
0,0350,90 -
1,20
0,15 -
0,300,40
34CrMo4 DIN EN 10250-3 1.7220 34CrMo4V Steel for forgings
0,15 -
0,30
- -
Steel for forgings
+QT
- -
max. 207
0 ,1 0 0 ,4 0Cr+Mo+Ni
max. 0,63
0,60 -
0,900,035
1.7218
25CrMo4 DIN EN 10083-1
0,60 -
0,900,035
0,22 -
0,29
+N - - -
0,40 0,035 0,40 -
25CrMo4V
25CrMo4V
CK451.1221
0,30 -
0,37
0,32 -
0,40
0,0350,400,60 -
0,90
0,035
34CrMo4V +QT
0,15 -
0,25
+QT -
GB 3077-88
JB/T6396-2006
max. 2070,57 -
0,65
0,57 -
0,65
+QT
1.0601
-
0,90 -
1,20
DIN EN 10083-2
DIN EN 10083-1 1.1203
C60E
+N
DIN EN 10250-2
SEW 550
0,57 -
0,65
0,57 -
0,65
C60N
DIN EN 10083-2 1.0535
1.7218
DIN EN 10083-1
JB/T 6396-2006
16
Steelsunalloydoralloyd,normalizedorquenchedandtempered/Steel
forgings
Steelsunalloydoralloyd,normalizedorquenchedandtempered/
Steelforgings
25CrMo
C60 +N
C55E +QT
C55 +QT
34CrMo4 1.7220
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 900 1100 - 1300 10 40 30 20
16 - 40 750 1000 - 1200 11 45
40 - 100 650 900 - 1100 12 50
100 - 160 550 800 - 950 13 50
160 - 250 500 750 - 900 14 55
160 550 800 14 45 20
160 - 330 450 700 15 40 20
330 - 500 410 650 16 33 20
500 - 750 390 590 - 740 16 - -
25 835 980 12 45 63 20 229
0,40
0,37
0,70 0,035 0,035
1,10
0,25 Fully killed steel is permissible
100 650 900-1100 12 50 35 20 269-321
101-160 550 800-950 13 50 35 20 241-302
161-250 500 750-900 14 50 35 20 225-269
251-500 460 690-840 15 - - 207-255
501-750 390 590-740 16 - - 176-241
16 900 1100 - 1300 9 40 30 20
16 - 40 780 1000 - 1200 10 45
40 - 100 700 900 - 1100 12 50
100 - 160 650 850 - 1000 13 50
160 - 250 550 800 - 950 13 55
160 550 800 13 25 20
160 - 330 540 750 14 20 20
330 - 500 490 700 15 15 20
500 - 750 490 690 - 840 15 - -
100 700 900 12 50 35 200,46 -
0,54
0,17 -
0,37
0,50 -
0,800,035 0,035
0,90 -
1,20
0,15 -
0,25Fully killed steel is permissible
100 700 900-1100 12 50 35 20 269-321
EZB 1184-93
JB/T 6396-2006
101-160 650 800-1000 13 50 35 20 241-302
161-250 550 800-950 14 50 35 20 225-269
251-500 540 740-890 15 - - 207-255
501-750 490 690-840 16 - - 176-241
0,400,60 -
0,90
50CrMo
0,46-
0,54
0,17-
0,37
0,50-
0,80
0,035
0,90 -
1,20
0,15 -
0,30
- -
50CrMo4
GB 3077-88
JB/T6396-2006
0,38-
0,45
0,17-
0,37
0,50-
0,80
50CrMo4V
Steel for forgings
0,035 0,035
35
DIN EN 10083-1 1.7228 50CrMo4V
42CrMo4V
42CrMo4VDIN EN 10083-1
30 20
0,90 -
1,20
0,15 -
0,30
- -
Steel for forgings
0,400,50 -
0,80
0,035 0,0350,46 -
0,54
0,38 -
0,45
+QT
+QT1.7225
+QT -1.7225
0,035 0,035 0,90-
1,20
0,15-
0,30
20
50CrMo4DIN EN 10250-3
SEW 5501.7228
DIN EN 10250-3
SEW 550
0 ,0 35 0 ,9 0-
1,20
0,15-
0,30
42CrMo
+QT -
42CrMo4
Steelsunalloydoralloyd,normalizedorquenchedandtempered/Steelforging
s
42CrMo4
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
16 1000 1200 - 1400 9 40 35 20
16 - 40 900 1100 - 1300 10 45 45 20
40 - 100 800 1000 - 1200 11 50 45 20
100 - 160 700 900 - 1100 12 55 45 20
160 - 250 600 800 - 950 13 55 45 20
160 600 800 13 45 20
160 - 330 540 750 14 45 20
330 - 500 490 700 15 40 20
00 - 1000 490 690 - 840 15 - -
100 800 1000-1200 11 50 45 20 302-341 Fully killed steel is permissible
101-160 700 900-1100 12 55 45 20 269-321
161-250 600 800-950 13 55 45 20 241-302
251-500 540 740-890 14 - - 225-269
501-1000 490 690-840 15 - - 207-255
16 1050 1250 - 1450 9 40 30 20
16 - 40 1050 1250 - 1450 9 40 30 20
40 - 100 900 1100 - 1300 10 45 35 20
100 - 160 800 1000 - 1200 11 50 45 20
160 - 250 700 900 - 1100 12 50 45 20
160 700 900 45 20
160 - 330 630 850 45 20
330 - 500 590 800 40 20
00 - 1000 590 780 - 930 - -
30Cr2Ni2Mo EZB 1184-93 100 900 1100 10 45 40 20, -
0,34
, -
0,37
, -
0,60 0,035 0,035, -
2,20
, -
0,50
, -
2,20 Fully killed steel is permissible
30Cr2Ni2Mo JB/T 6396-2006 100 900 1100-1300 10 45 35 20 325-369
101-160 800 1000-1200 11 50 45 20 302-341
161-250 700 900-1100 12 50 45 20 269-321
251-500 635 830-980 12 - - 250-302
501-1000 590 780-930 12 - - 229-286
70 980 1100 10 - 28 20
70 - 160 820 1000 12 - 48 20
160 - 330 780 950 12 -48 20
1000 785 930 - 1130 12 - -
000 - 1500 735 880 - 1080 13 - -
500 - 2000 685 830 - 980 14 - -
No conversion
160 700 900 12 - 35 20
160 - 330 590 800 14 - 35 20
No conversion
0,30 -
0,38
34Cr2Ni2Mo
0,17 -
0,37
0,40 -
0,70
0,15 -
0,30
1,40-
1,70
0,035 1,80 -
2,20
0,30 -
0,50
1,80 -
2,20
0,26 -
0,34
0,17 -
0,37
0,30 -
0,60
0,035
1,30 -
1,70
-0,400,50 -
0,80
0,40
30CrNiMo8DIN EN 10250-3
SEW 5501.6580 30CrNiMo8 +QT - Steel for forgings
0,30 -
0,50
1,80 -
2,20-
30CrNiMo8 V
34CrNiMo6DIN EN 10250-3
SEW 5501.6582 34CrNiMo6
30CrNiMo8 DIN EN 10083-1 1.6580
JB/T 6396-2006
Steel for forgings
1,30 -
1,70
0,15 -
0,30
34CrNiMo6 V +QT
-
30CrMoV9 DIN EN 10250-3 1.77070,40 -
0,700,035
0,15 -
0,250,60
0,035 Steel for forgings33NiCrMoV14-5DIN EN 10250-3
SEW 5501.6956 33 NiCrMo14 5 +QT
0,30 -
0,60V 0,08 - 0,25
0,15 -
0,40
-
0,28 -
0,380,40
30 CrMoV 9 +QT V 0,10 - 0,20 Steel for forgings
12
0,26 -
0,340,40
0,0351,00 -
1,70
DIN EN 10083-1 1.658234CrNiMo6
2,90 -
3,80
0,30 -
0,38
+QT -
0,035 0,035 1,40 -
1,70
0,0352,30 -
2,70
0,035 0,0351,80 -
2,20
0,0350,035
0,30 -
0,60
+QT
0,26 -
0,34
Steelsunalloydoralloyd,normalizedorquenchedandtempered/Steelforgings
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
+A - - - - - - - max. 223
+H- - - - - - -
HRC
min. 60
Cr2 GB 1299-85 Not known Not Known
GCr15 YB/T 1 ?? Not known 0,95 -1,05 0,15 -0,35 0,25 -0,45 0,025 0,025 1,40 -1,65
+A max. 229
+H
.
6 Cr W2 Si GB 1299-85 Not known Not known
100 39 20
100 - 250 31 20
250 - 330 27 20
+QT1 160 600 800 - 950 14 40 27 20
+QT2 160 600 800 - 950 14 40 27 20
1Cr11MoV GB 1221-92 490 685 16 55 - -0,11 -
0,18
10,00
-
11,50
0,50 -
0,700,6 V 0,25 - 0,40
Material is only similar,
Notch impact energy not guaranteed,
+A - - max. 760 - - - - max. 230
+QT700 160 500 700 - 850 13 - 25 20 -
+QT800 160 600 800 - 950 12 - 20 20 -
+A - - max. 760 - - - - max. 230
+QT700 160 500 700 - 850 13 - 25 20 -
+QT800 160 600 800 - 950 12 - 20 20 -
2Cr13GB 1220-92
GB 1221-92
GB 8732-88
+QT 75 440 635 20 50 63 20 1920,16 -
0,251,00 1,00 0,035 0,03
12,00
-
14,00
- - Material is only similar (Mechanical properties!)
3Cr13GB 1220-92
GB 1221-92
GB 8732-88
+QT 75 540 735 12 40 24 20 2170,26 -
0,401,00 1,00 0,035 0,03
12,00
-
14,00
- - Material is only similar (C-content!)
+A 800 245
DIN EN 10088-3
+A 207
GB 1220-92 (+QT)OFH:
HRC
min. 50
0,36 -
0,450,60 0,80 0,035 0,03
12,0 -
14,0Material is only similar (Mechanical properties!)
Tools
steels
+QT800 1,00
4Cr13
Semi-finished products0,04 0,0312,5 -
14,5- -
OFH:
HRC
min. 55
0,43 -
0,501,00
X46Cr13 1.4034
Not known
850-1000 10 - 12 20 160 650
0,03 0,031,35 -
1,65-102Cr6
DIN EN ISO
49571.2067 100 Cr 6
0,95 -
1,10
0,15 -
0,35
X22CrMoV12-1
X20CrMoV11-1 DIN EN 10222-2 1.4922
DIN EN 10269 1.4923
+QT0,17 -
0,23
V 0,10 - 0,20
W 1,70 - 2,20
V 0,20 - 0,350,025 0,015
10,00
-
12,50
0,80 -
1,20
0,30 -
0,80-
0,30 -
0,80- V 0, 25 - 0, 35
60WCrV8DIN EN ISO
49571.2550
11,00
-
12,50
60 WCrV 70,55 -
0,65
0,70 -
1,00
0,15 -
0,450,03 0,03 -
DIN EN 10088
0,50,18 -
0,24
X 22CrMoV 121
-
0,30 -
1,00500 700 - 850 16 -
0,80 -
1,200,015
-
0,40 -
0,90
Steel for forgings
0,90 -
1,20-
X20Cr13
Steel for forgings
0,16 -
0,25 1,00 1,50 0,04 0,03
12,00
-14,00
0,025
X20Cr13 DIN EN 10250-4 1.4021 X 20 Cr 13
-
1.4021 X 20 Cr 13
-
0,40
-0,25 -
0,45- -
Heat-resistingste
els
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
+A - - max. 1000 - - - - max. 295
+QT800 160 600 800 - 900 10 - 20 20 -
+QT900 160 700 900 - 1050 10 - 15 20 -
+A - - max. 1000 - - - - max. 295
+QT800 160 600 800 - 900 10 - 20 20 -
+QT900 160 700 900 - 1050 10 - 15 20 -
1Cr17Ni2GB 1220-92
GB 1221-92
GB 3280-92
Material is only similar (Yield-strength is not
guaranteed)
GB/T 4231-93
GB/T 4240-93
GB 4356-84
+A - - max. 1100 - - - - max. 320
+QT760 450 550 760 - 960 16 - 90 20 -
+QT900 450 700 900 - 1100 16 - 80 20 -
X4CrNi18-10 DIN EN 10250-4 1.4301 X5 CrNi 18 9 250 190 500 - 700 3 5 - 100 20 Steel for forgings
0Cr18Ni9 GB 1220-92solution
anealing 180 205 520 40 60 - - max. 187 0,07 1,00 2,00 0,035 0,03
17,00
--
8,00 -
11,00-
Material is only similar,
Notch impact energy not guaranteed,
X6CrNiTi18-10 DIN EN 10250-4 1.4541 X10 CrNiTi 18 9 250 190 500 - 700 3 0 - 100 20 Steel for forgings
X6CrNiTi18-10DIN EN 10216-5
DIN EN 10217-71.4541 50 200 500 - 730 35 - 100 20 130 - 180 Pipes and tubes
0Cr18Ni10Ti
GB 1220-92
GB 1221-92
GB 3280-92
GB4237-92
GB4238-92
GB 4356-84
GB 12771-91
GB 13296-91
GB/T 14975-94
GB/T 14976-94
solution
annealing 180 205 520 40 60 - - max. 187 0,08 1,00 2,00 0,035 0,03
17,00
-
19,00
-8,00 -
11,00-
Ti = 5xC,
max. 0,80
Material is only similar,
Notch impact energy not guaranteed,
-1,50 -
2,50-10 - 39
250 190
0,80 0,035 0,03
16,00
-
18,00
0,0450,0735 - 100 20
100
250 0,11
500 - 700 30 -
0,015
17,00
-
19,00
-1,50 -
250
0,12 -
0,221,00 1,50 0,04 - -
X17CrNi16-2 DIN EN 10250-4 1.4057X 17 CrNi 162
Steel for forgings
0,03
15,00
-
17,00
X17CrNi16-2 DIN EN 10088 1.4057 X 17 CrNi 162
No conversion
X4CrNi18-10 DIN EN 10088 1.4301
+QT 75 - 20 -0,11 -
0,170,801080
solution
annealing0,08 1,00 2,00 0,045
190 500 - 7000,015
17,00
-
19,50
-8,00 -
10,501 ,0 0 2, 00
solution
annealing
X5 CrNi 18 9
X6CrNiTi18-10 DIN EN 10088 1.4541 X10 CrNiTi 18 9
Ti = 5xC,
max. 0,70-
9,00 -
12,00 0,11
20
Steel for forgings0,06 0,70 1,504,00 -
6,00
15,00
-
17,00
0,80 -
1,50X4CrNiMo16-5-1 DIN EN 10250-4 1.4418 - 0,045 0,03 0,02 -
Stainlesssteels
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Thicknessor
diameter
Yield
strengthRe
Tensile
strengthRm
Elongationat
fract.A5
Reductionof
areaZ
Notchimpact
energyKV
Test-
temperature
Hardness
afterheat
treatment
mm MPa MPa % % HBW C Si Mn P S Cr Mo N i N other
Material
Gro up M at er ia l d es ig na ti on Sta nd ard M at .-
No.
Former
designation
Heat
treatment
J C
% max. or rangemin. or range
Chemical compositionMechanical propertiesNotice
00Cr17Ni14Mo2GB 1220-92
GB 1221-92177 480 40 60 - - max. 187
0,03 1,00 2,00 0,035 0,03
16,00
-
2,00 -
3,00
12,00
15,00 -
0Cr17Ni12Mo2GB 1220-92
GB 1221-92 180 205 520 40 60 - - max. 187 0,08 1,00 2,00 0,035 0,03
16,00
-
2,00 -
3,00
10,00
14,00-
0Cr18Ni12Mo2Ti
GB 1220-92
GB4237-92
GB 13296-91
GB/T 14975-94
GB/T 14976-94
solution
annealing 180 205 520 40 60 - - max. 187 0,08 1,00 2,00 0,035 0,03
16,00
-
18,50
2,00 -
3,00
10,00
14,00-
Material is only similar,
Notch impact energy not guaranteed,
- 100 20
2,00 -
2,50
10,00 -
13,00 0,11
500 - 700
20
X5CrNiMo17-12-2 DIN EN 10250-4 1.4401 X5 CrNiMo 17 12 2
250 200 500 - 700 30 - 100
2,00solution
annealing 250 200
Material is only similar,Notch impact energy not guaranteed,
0,07 1,00
Steel for forgings
100
X6CrNiMoTi17-12-2 DIN EN 10088 1.4571
Ti = 5xC,
max. 0,70
2,00 0,045 0,015
16,50
-
18,50
Pipes and tubes
Steel for forgings
2,00 -
2,50
10,00 -
13,001,00
250 200
X5CrNiMo17-12-2 DIN EN 10088 1.4401 X5 CrNiMo 17 12 2
30
max. 215
500 - 700 20
-
30 - 100
30 20
0,11
250
solutionannealing
X6CrNiMoTi17-12-2DIN EN 10216-5
DIN EN 10217-71.4571 X10 CrNiMoTi 18 10
solution
annealing
X10 CrNiMoTi 18 10 max. 215
210 500 - 730 35 -
200 500 - 700X6CrNiMoTi17-12-2 DIN EN 10250-4 1.4571 X10 CrNiMoTi 18 10
502,00 -
2,50
0,045 0,015
16,50
-
18,50
-100 20 130 - 180 2,00 0,045 0,015
16,50
-
18,50
0,08 1,0010,50 -
13,50
0,07
Stainlesssteels
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Anhang/Appendix B2 (normativ) - Comparison of german and chinese material properties, cast steels
Notice
Thicknessor
diameter
Yieldpoint,
proofstress
Tensile
strength
Elongationat
fracture
Reductionof
area
Notch
toughness
(20C)
Test-
temperature
Fatigue
strength
Hardness
after
annealing
mm MPa MPa % % J C Mpa HBW C Si Mn P S Cr Mo Ni N other
200 380 - 530 25 - 35 20 - -
ZG 200-400GB 11352-89EZB 1161-93
-100 200 400 25 40 30 20 - -0,12 -0,20
0 ,45 0 ,80
EZB-Standards are work-standards from CHINANATIONAL ERZHONG GROUP
30 300 600 - 750 15 - 27 20 - -
30 - 100 300 520 - 670 18 - 31 20 - -
ZGD 345-570 GB/T 14408-93 345 570 - - - - - - - - - 0,04 0,04 - - - - -
ZGD 410 - 620 GB/T 14408-93 410 620 - - - - - - - - - 0,04 0,04 - - - - -
27 -3050 2027 -3060 20
+N 295 510 14 - 30 (KCU) max. 156
+QT 300 500 - 650 24 - 45 20 150 - 190
30 260 520 18 25 27 20 - 150 - 200
30 - 100 260 520 18 25 22 20 - 150 - 200
DIN 1681(invalid)
ZG 270-500 GB 11352-89
ZG 290-510 GB/T 14408-93 100 290 510 -
310 570100 15
+QT-steel is permisible,
GS-52GS-52N
normalised
100 270
0,300,50 0,60 0,90 0,04 0,35
0,40 0,50
Cu max.0,30
15 20 - -
0,80480 - 620 -
0,02-
22 20 - -
0 ,025 0,025
0,04
V max.
0,05, Cu
max. 0,30
0,30 -25
0 ,0 2 0, 30
0,04 0,35 0,20
500 - 650
0,60 -0,80
1,00 -1,30
0,035
22
0,035
0,28 -0,35
0,30 -0,50
0,60 -0,80
0,12 -0,22
500 0,90
0,30
0,4
- -
0,12
- 270 480 -
0,18 0,60 1,20 0,03
100 230 450 22 25 20 -
0 ,12 0 ,40Cu max.
0,30
C content max. 0.30% must be limited to max. 0.23%!EZB-Standards are work-standard from CHINANATIONAL ERZHONG GROUP.
- -- -
Mechanical properties
min. or range
GS-38N normalised 100
--GS-45N
G20Mn5
ZG 340-640
GS 240 normalised
ZG 230-450
GE 300
DIN EN 10293
DIN EN 10293
GB/T 14408-93
DIN EN 10293
GB 11352-89
GB 11352-89EZB 1161-93
ZGD 270-480
1.0449
1.0445
32
0,03 0,025 0,30
max. or range %
0,23 0,60 1,20
Heat-treatment
-
GS 200
Chemical composition
0 ,025 0, 30 0 ,1 2 0, 40Cu max.
0,30
Chemical composition must be agreed between themanufacturer and purchaser
100 240 450 - 600 22 - 31 20
--
-
0,23 -0,30
0,20 -
0,45
0,50 -
0,80
0,04 0 ,04 - - -
20 - -570 15
-
21
-- -
30 300 20 -0,17 -0,23
0,601,00 -1,60
15 0,90
-100 300
310
18 -
- -
0,50 -
0,8010 20 -100 340 640 10
1.0558 GS-60N normalised
100 0,50 0,60
- -Chemical composition must be agreed between themanufacturer and purchaser
Chemical composition must be agreed between themanufacturer and purchaser
C content 0.50% to 0,60% , only limited weldability.
-
-
--0,53 -0,60
0,20 -
0,45
-- - - 0,03 -0,035
18
- - - -
C content must be limited, otherwise only limitedweldability.
0,04 0,04 - -
-
V max.
0,05, Cu
max. 0,30
0,04
- -
0,2021
- - - - -
Material
Formerdesignation
DIN EN 10293 1.6220 GS-20Mn5+QT
+N
Generalpurposecaststeel
Group Material designation Standard No.
1.0552
ZG 310-570 GB 11352-89
ZG 310-570 GB 11352-89
ZG 20Mn JB/T 6402-92
GS-52
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Notice
Thicknessor
diameter
Yieldpoint,
proofstress
Tensile
strength
Elongationat
fracture
Reductionof
area
Notch
toughness
(20C)
Test-
temperature
Fatigue
strength
Hardness
after
annealing
mm MPa MPa % % J C Mpa HBW C Si Mn P S Cr Mo Ni N other
Mechanical properties
min. or range max. or range %
Heat-
treatment
Chemical compositionMaterial
Former
designation
Group Material designation Standard No.
+N 250 260 520 - 670 18 - 27 20 - -
+QT1 100 450 600 - 750 14 - 35 20 - -
+QT2 50 550 700 - 850 10 - 31 20 - -
+N - 345 570 12 20 24 - - - 0,30 0,60 1,00 0,035 0,035 - - - - -
+QT - 415 640 12 25 27 - - - 0,40 0,80 1,40 - - - - - - - No comparison for QT2 available.
100 450 600 - 750 16 - 40 20 - -
100 - 25 300 550 - 700 14 - 27 20 - -
QT2 100 550 700 - 850 10 - 18 20 - -
+N 392 588 12 20 191
+QT 539 686 12 25 240
100 600 800 - 950 12 - 31 20 - -
100 - 15 550 700 - 850 10 - 27 20 - -
150 - 25 350 650 - 800 10 - 16 20 - -
+QT2 100 700 850 - 1000 10 - 27 20 - -
G42CrMo4 SEW 835 1.7231 GS-42CrMo4 +QT 150 470 680 12 - - - - - 0,38 -0,45
0,60 0,60 -1,00
0 ,0 2 0 ,0 15 0,80 -1,20
0,20 -0,30
- - - F lam e a nd i ndu ct ion har den ing s te el c as ti ngs
ZG 42Cr1MoJB/T 6402-92EZB 1162-92
+QT 490 690 - 830 11 30 - - 200 - 2500,38 -0,45
0,30 -0,60
0,60 -1,00
0 ,025 0,0250,80 -1,20
0,20 -0,30
- - -comparison for Flame-and induction hardening steelcastingsEZB-Standards are work-standards from CHINA
150 700 950 - 1000 12 - 32 20 - 240 - 290
150 - 25 650 800 - 950 12 - - - - 220 - 270
50 - 40 650 800 - 950 10 - - - - 220 - 270
150 550 800 - 950
1 50 - 2 5 5 00 7 50 - 9 00
100 700 8 50 - 1000 - 45 20
00 - 15 650 800 - 950 35 20
50 - 25 650 800 - 950 30 20
+QT2 100 800 900 - 1050 10 - 35 20
150 700 950 - 1000 12 - 32 20 - 240 - 290
150 - 25 650 800 - 950 12 - - - - 220 - 270
50 - 40 650 800 - 950 10 - - - - 220 - 270
20
GS-34CrNiMo6V
Quenchedandtem
peredsteelcastings
1,40 -1,70
0,15 -0,35
1,40 -1,70
- -For welded parts C-content must be < 0,30%,+QT-steel is permisible for comparison only,
0,30 -0,37
0,30 -0,50
0,50 -0,80
0,035 -
0,020,80 -1,20
0,15 -0,30
0,4 -Cu max.
0,30
comparison for QT1 and QT2!
1.7221 GS-25CrMo4VQT1 0,22 -
0,290,60
0,50 -0,80
0,025Cu max.
0,30
1.7231 GS-42CrMo4V0,38 -0,45
0,600,60 -1,00
0,020,80 -1,20
-
0,60 -1,00
0,035
G 6CrMo4
DIN 10293
G42CrMo4 DIN 10293
DIN EN 10293
ZG 34Cr2Ni2Mo JB/T 6402-92
ZG 35Cr1MoJB/T 6402-92EZB 1162-92
0,025
0,035
+QT1
12
12
0,035
0,021,40 -
1,70
0,15 -
0,350,025
ZG 34Cr2Ni2Mo JB/T 6402-92
G35CrNiMo6-6+QT1
+N
1.6579
- 31
0,32 -0,38
0,60,60 -
1,00
0,035+QT
+QT0,30 -0,37
0,30 -0,60
Cu max.
0,30
1,40 -
1,70
G28Mn6 DIN EN 10293 1.1165 GS-30Mn5V 0,601,20 -
1,80
0,035
comparison for QT1 and QT2!1,40 -1,70
0,15 -0,35
0,30 -0,37
0,30 -0,60
0,60 -1,00
0,035
0,12 0,40Cu max.
0,30
0,30
1,40 -1,70
-
0,15 -0,30
0,4
0,80 -1,20
0,20 -0,30
0,030,25 -
0,32
ZG 35Mn
JB/T 6402
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Notice
Thicknessor
diameter
Yieldpoint,
proofstress
Tensile
strength
Elongationat
fracture
Reductionof
area
Notch
toughness
(20C)
Test-
temperature
Fatigue
strength
Hardness
after
annealing
mm MPa MPa % % J C Mpa HBW C Si Mn P S Cr Mo Ni N other
Mechanical properties
min. or range max. or range %
Heat-
treatment
Chemical compositionMaterial
Former
designation
Group Material designation Standard No.
150 380 650 - 800
150 - 25 330 - -
50 - 40 300
50 600 750 - 850 14 - 35 20 - -
50 - 100 540 700 - 850 12 - 30 20 - -
100 - 15 480 620 - 770 10 - 27 20 - -
50 700 850 - 1000 10 - 27 20 - -
50 - 100 650 830 - 980 10 - 27 20 - -
+N 392 588 12 20 191
+QT 539 686 12 25 240
ZG20SiMnJB/T 4297-86EZB 1162-92
+N 100 300 500 - 650 24 30 45 20 - - 0,23 0,61,00 -1,50
0,025 0,025 0,30 0,15 0,4+QT-steel is permisible,EZB-Standards are work-standards from CHINANATIONAL ERZHONG GROUP
ZG20SiMnJB/T 4297-86EZB 1162-92
+QT 100 300 500 - 650 24 30 45 20 - - 0,23 0,61,00 -1,50
0,025 0,025 0,30 0,15 0,4+QT-steel is permisible,EZB-Standards are work-standards from CHINANATIONAL ERZHONG GROUP
ZG20MnMo JB/T 6402-92 +QT 100 295 490 16 - 39 (KCU) - -0,17 -0,23
0,20 -0,40
1,10 -1,40
0,035 0,035 -0,20 -0,35
-Cu max.
0,30
ZG20CrMoV JB/T 7024-93 +QT
-
0,50 -0,80
0,035
1.0619 GS-25N +N
0,23 -0,30
22 32 35
Quenchedandtemperedsteelcastin
gs
Heat-resistantsteelcastings
+N
100 240
230 450
- -+Nis not comparison, +QT-steel is permisible forcomparison,
0,0350,80 -1,20
0,20 -0,30
-0,30 -0,37
0,30 -0,50
0,80 -1,20
0,20 -0,30
quenchedand
tempered inair
620 - 770
10 - 16 20
Liquidquenched
andtempered
V I
V II
- 0,40 - 0,30 Cu0,03 V0 ,0 2 0, 30
0,30 -0,37
0,60
+QT
C content max. 0.30% must be limited to max. 0.25%!EZB-Standards are work-standard from CHINANATIONAL ERZHONG GROUP.
- 27
200,20 -0,45
-0,04 0,04 -0,50 -0,80
-- - -
EZB-Standards are work-standards from CHINANATIONAL ERZHONG GROUP
420-600 22 20 - 0,030,50-1,200,18-0,23 0,60
-- -+QT1.7232 GS-50CrMo4 150 -520 730 11 -
Material do not use for new design.1.7220 -GS-34CrMo4VDIN 17205
(Invalid)0,50 -0,80
0 ,0 2 0 ,0 15
Flame and induction hardening steel castingsG50CrMo4 - -0,90 -1,20
0,15 -0,25
-
0,46 -0,54
520 740 - 880
0,0350,46 -0,54
0,25 -0,50
0,50 -0,80
0,035
-0,25 -0,50
200 - 26011 - 34 20
22 -
0,50 -0,80
0,035 - -0,0350,90 -1,20
0,15 -0,25
-
- -
0,12
ZG 230-450 EZB 1165-93 +QT 230 450
0,50 -1,20
0,03 0,02 - - -40 20 - -0,18 -0,23
0,60+QT 100 240 420 - 600
+QT 100 245 440 - 590 22 -
- -C content max. 0.30% must be limited to max. 0.23%!EZB-Standards are work-standard from CHINANATIONAL ERZHONG GROUP.
0,04 - - -0,23 -0,30
0,20 -0,45
22 320,50 -0,80
0,0435 20 - -
0,50 -1,00 0,025 0,02 -27 20 - - 0,15 -0,23 0,60
0,021,00 -1,50
0,45 -0,65
- - -
0,40 -0,60 - - -
+QT0,15 -0,20
0,600,50 -1,00
0,0227 20 - - 100 315 490 - 690 20 -G17CrMo5-5 DIN EN 10213 1.7357 GS-17CrMo55V
Not known Not known
G20Mo5 DIN EN 10213 1.5419 GS-22Mo4
GP240GH DIN EN 10213 1.0619 GS-25V
ZG 50Cr1MoJB/T 6402-92EZB 1162-92
SEW 835
GP240GH
ZG 230-450 EZB 1165-93
ZG 35Cr1MoJB/T 6402-92EZB 1162-92
DIN EN 10213
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Notice
Thicknessor
diameter
Yieldpoint,
proofstress
Tensile
strength
Elongationat
fracture
Reductionof
area
Notch
toughness
(20C)
Test-
temperature
Fatigue
strength
Hardness
after
annealing
mm MPa MPa % % J C Mpa HBW C Si Mn P S Cr Mo Ni N other
Mechanical properties
min. or range max. or range %
Heat-
treatment
Chemical compositionMaterial
Former
designation
Group Material designation Standard No.
ZG15Cr1Mo1VGB/T 16253-
1996+QT 420 590-740 15 - 24 20
0,13-0,20
0,30-
0,60
0,50-
0,800,035 0,035
1,20-
1,60
0,90-
1,20
V 0,15-
0,35
ZG23Cr12Mo1NiVGGB/T 16253-
1996+QT 540 740 - 880 15 - 21 20
0,20-0,26
0,20-0,40
0,50-0,70
0 ,035 0,03511,3 -12,3
1,00-1,20
0,70-1,00
Heat-resistantsteelcastings
G17CrMoV5-10 DIN EN 10213 1.7706 150
+QT -
V 0,20 -0,30
Sn max.0,025
0,015
1,20 -
1,50
0,90 -
1,1020 - -
0,15 -
0,20 0,60
0,50 -
0,90GS-17CrMoV5 11V 440 590 - 780 15 - 27
GX23CrMoV12-1 DIN EN 10213 1.4931 GX-22CrMoV12 1
-
740 - 880 15 -+QT 150 540 0,4020
0,02
0,0211,30
-12,20
1,00 -1,20
max.1,00
0,50 -0,80
0,03 -
V 0,25 -0,35
W max.0,50
- -0,20 -0,26
27
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Anhang/Appendix B3 (normativ) - Comparison of german and chinese material properties, cast irons
Notice
Thicknessor
diameter
Yieldpoint,
proofstress
Tensile
strength
Elongationat
fracture
Reductionof
area
Notch
toughness
(20C)
Test-
temperature
Fatigue
strength
Hardness
after
annealing
mm MPa MPa % % J C Mpa HBW C Si Mn P S Cr Mo Ni N other
10 - 20 - 180 - - - - 90 250
20 - 40 - 155 - - - - - 235
40 - 80 - 130 - - - - - 235
HT20-40 GB 9439-88 - - - 200 - - - - - -
HT200 EZB 1173-94 - - - 200 - - - - - -EZB-Standards are work-standards from CHINA NATIONAL
ERZHONG GROUP
10 - 20 - 225 - - - - 120 265
20 - 40 - 195 - - - - - 250
40 - 80 - 170 - - - - - 250
10 - 20 - 270 - - - - 140 265
20 - 40 - 240 - - - - - 265
40 - 80 - 210 - - - - - 265
Chemical composition
- - 250 - - - -
max. or range %
Referenc composition, at supplier's discretion-
-
Without heat
treatment or
stress
reliving
-
GB 9439-88
Gr
eycastiron
Mechanical properties
min. or range
GG-20
GGL-20-
Material