|
2:2003/oprA2:2005
PREDSTANDARD
maj 2005
Nevarjene jeklene cevi za tlačne posode - Tehnični dobavni pogoji - 2. del:
Nelegirane in legirane jeklene cevi s specificiranimi lastnostmi za delo pri
povišanih temperaturah
Seamless steel tubes for pressure purposes - Technical delivery conditions - Part 2:
Non-alloy and alloy steel tubes with specified elevated temperature properties
ICS 23.040.10; 77.140.75 Referenčna številka
SIST EN 10216-2:2003/oprA2:2005(en)
© Standard je založil in izdal Slovenski inštitut za standardizacijo. Razmnoževanje ali kopiranje celote ali delov tega dokumenta ni dovoljeno
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EUROPEAN STANDARD
DRAFT
EN 10216-2:2002
NORME EUROPÉENNE
EUROPÄISCHE NORM
prA2
March 2005
ICS
English version
Seamless steel tubes for pressure purposes - Technical delivery
conditions - Part 2: Non-alloy and alloy steel tubes with specified
elevated temperature properties
Tubes sans soudure en acier pour service sous pression - Nahtlose Stahlrohre für Druckbeanspruchungen -
Conditions techniques de livraison - Partie 2 : Tubes en Technische Lieferbedingungen - Teil 2: Rohre aus
acier non allié et allié avec caractéristiques spécifiées à unlegierten und legierten Stählen mit festgelegten
température élevée Eigenschaften bei erhöhten Temperaturen
This draft amendment is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee ECISS/TC 29.
This draft amendment A2, if approved, will modify the European Standard EN 10216-2:2002. If this draft becomes an amendment, CEN
members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for inclusion of this amendment
into the relevant national standard without any alteration.
This draft amendment was established by CEN in three official versions (English, French, German). A version in any other language made
by translation under the responsibility of a CEN member into its own language and notified to the Management Centre has the same status
as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France,
Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia,
Slovenia, Spain, Sweden, Switzerland and United Kingdom.
Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without notice and
shall not be referred to as a European Standard.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36 B-1050 Brussels
© 2005 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 10216-2:2002/prA2:2005: E
worldwide for CEN national Members.
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EN 10216-2:2002/prA2:2005 (E)
Contents
Foreword .3
7.3 Tube manufacture and delivery condition .4
8.2 Chemical composition .5
8.3 Mechanical properties.9
9.3 Summary of inspection and testing.13
11.3 Flattening test .14
11.5 Drift expanding test.15
Annex A (Informative) .16
Creep rupture strength values .16
Annex ZA (informative) .22
Relationship between this European Standard and the Essential Requirements of EU Directive 97/23/EC.22
2
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EN 10216-2:2002/prA2:2005 (E)
Foreword
This document (EN 10216-2:2002/prA2:2005) has been prepared by Technical Committee ECISS/TC 29 “Steel
tubes and fittings for steel tubes”, the secretariat of which is held by UNI.
This document is currently submitted to the CEN Enquiry.
This document has been prepared under a mandate given to CEN by the European Commission and the European
Free Trade Association, and supports essential requirements of EU Directive 97/23/EC.
For relationship with EU Directive 97/23/EC, see informative annex ZA, which is an integral part of this document.
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EN 10216-2:2002/prA2:2005 (E)
7.3 Tube manufacture and delivery condition
Table 1 — Heat treatment conditions
Steel grade Heat Austenitizing Tempering
a
treatment
Steel Steel Temperature Cooling Temperature Cooling
Medium medium
name number °C °C
b
P195GH 1.0348 880 to 940 Air - -
+N
b
P235GH 1.0345 880 to 940 Air - -
+N
b
P265GH 1.0425 880 to 940 Air - -
+N
b
20MnNb6 1.0471 900 to 960 Air - -
+N
b
16Mo3 1.5415 890 to 950 Air - -
+N
b
8MoB5-4 1.5450 920 to 960 Air - -
+N
b c
14MoV6-3 1.7715 930 to 990 Air 680 to730 air
+NT
b c
10CrMo5-5 1.7338 900 to 960 Air 650 to 750 air
+NT
b c
13CrMo4-5 1.7335 900 to 960 Air 660 to 730 air
+NT
b c
10CrMo9-10 1.7380 900 to 960 Air 680 to 750 air
+NT
11CrMo9-10 1.7383 +QT 900 to 960 Air or Liquid 680 to 750 air
25CrMo4 1.7218 +QT 860 to 900 Air or Liquid 620 to 680 air
20CrMoV13-5-5 1.7779 +QT 980 to 1030 Air or Liquid 680 to 730 air
d)
7CrWVMoNb9-6 +NT 1040 to 1080 Air 730 to 780 Air
d)
7CrMoVTiB10-10 1.7378 +NT 980 to 1020 Air 730 to 770 Air
X11CrMo5+NT1 1.7362+NT1 +NT1 930 to 980 Air 730 to 770 air
c
X11CrMo5+NT2 1.7362+NT2 930 to 980 air 710 to 750 air
+NT2
X11CrMo9-1+I 1.7386+I +I 950 to 980 Furnace - -
Atmosphere
c
X11CrMo9-1+NT 1.7386+NT 890 to 950 air 720 to 800 air
+NT
c
X10CrMoVNb9-1 1.4903 1040 to 1090 air 730 to 780 air
+NT
c)
X10CrWMoVnb9-2 +NT 1040 to 1090 Air 730 to 780 Air
c)
X11CrMoWVNb9-1-
1.4905 +NT 1040 to 1080 Air 740 to 770 Air
1
c
X20CrMoV11-1 1.4922 1020 to 1080 air 730 to 780 air
+NT
a
+N = Normalising, +NT = Normalising + Tempering, +QT = Quenching + Tempering (air or liquid), +I = Isothermal
Annealing.
b
Normalising includes Normalising Forming.
c
For these steel grades it may be necessary in the case of wall thickness T above 25 mm or T/D > 0,15 to apply quenching
and tempering in order to achieve the intended structure and material properties . The decision shall be left to the discretion
of the manufacturer but shall be stated to the customer at the time of enquiry and order. Steel tubes treated in such a way
shall be designated by the steel name supplemented by the symbol “+QT “.
d
For these steel grades it may be necessary in case of wall thickness T above 16 mm or T/D > 0,15 to apply
quenching and tempering in order to achieve the intended structure and material properties. The decision shall be
left to the discretion of the manufacturer but shall be stated to the customer at the time of enquiry and order. Steel
tubes treated in such a way shall be designated by the steel name supplemented by the symbol “+QT”.
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EN 10216-2:2002/prA2:2005 (E)
8.2 Chemical composition
a
Table 2 — Chemical composition (cast analysis) , in % by mass
Steel grade C Si Mn P S Cr Mo Ni Al Cu Nb Ti V Cr+Cu Others
tot
max max
max +Mo+Ni
Steel name Steel
number
195GH 1.0348 0,025 0,020 b c d d d -
≤ 0,13 ≤ 0,35 ≤ 0,70 ≤ 0,30 ≤ 0,08 ≤ 0,30 ≤ 0,70
≥ 0,020 ≤ 0,30 ≤ 0,010 0,040 ≤ 0,02
P235GH 1.0345 0,025 0,020 b c d d d -
≤ 0,16 ≤ 0,35 ≤ 1,20 ≤ 0,30 ≤ 0,08 ≤ 0,30 ≤ 0,70
≥ 0,020 ≤ 0,30 ≤ 0,010 0,040 ≤ 0,02
P265GH 1.0425 0,025 0,020 d d -
≤ 0,20 ≤ 0,40 ≤ 1,40 ≤ 0,30 ≤ 0,08 ≤ 0,30 b c d ≤ 0,70
≤ 0,30 ≤ 0,010 0,040 ≤ 0,02
≥ 0,020
20MnNb6 1.0471 0,025 0,020 - - - - - - -
≤ 0,22 0,15 1,00 ≤ 0,060 c 0,015
≤ 0,30
to to to
0,35 1,50 0,10
16Mo3 1.5415 0,12 ≤ 0,35 0,40 0,025 0,020 ≤ 0,30 0,25 ≤ 0,30 ≤ 0,040 c - - - - -
≤ 0,30
to to to
e 0,90 0,35
0,20
8MoB5-4 1.5450 0,06 0,10 0,60 0,025 0,020 0,40 - c - 0,060 - - B = 0,002
≤ 0,20 ≤ 0,060
≤ 0,30
to to to to to
0,10 0,35 0,80 0,50 0,006
14MoV63 1.7715 0,10 0,15 0,40 0,025 0,020 0,30 0,50 ≤ 0,30 ≤ 0,040 c - - 0,22 - -
≤ 0,30
to to to to to to
0,15 0,35 0,70 0,60 0,70 0,28
10CrMo5-5 1.7338 0,50 0,30 0,025 0,020 1,00 0,45 c - - - - -
≤ 0,15 ≤ 0,30 ≤ 0,040
≤ 0,30
to to to to
1,00 0,60 1,50 0,65
13CrMo4-5 1.7335 0,10 0,40 0,025 0,020 0,70 0,40 c - - - - -
≤ 0,35 ≤ 0,30 ≤ 0,040
≤ 0,30
to to to to
e 0,70 1,15 0,60
0,17
10CrM09-10 1.7380 0,08 ≤ 0,50 0,30 0,025 0,020 2,00 0,90 ≤ 0,30 ≤ 0,040 c - - . - -
≤ 0,30
to to to to
0,14 0,70 2,50 1,10
11CrMo9-10 1.7383 0,08 0,40 0,025 0,020 2,00 0,90 c - - . - -
≤ 0,50 ≤ 0,30 ≤ 0,040
≤ 0,30
to to to to
0,15
0,80 2,50 1,10
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EN 10216-2:2002/prA2:2005 (E)
C Si Mn P S Cr Mo Ni Al Cu Nb Ti V Cr+Cu Others
tot
Steel grade
max max
+Mo+Ni
Steel name Steel number
25CrMo4 1.7218 0,22 0,60 0,025 0,020 0,90 0,15 c - - - - -
≤ 0,40 ≤ 0,30 ≤ 0,040
≤ 0,30
to to to to
0,29 0,90 1,20 0,30
20CrMoV13-5-5 1.7779 0,17 0,15 0,30 0,025 0,020 3,00 0,50 c - - 0,45 - -
≤ 0,30 ≤ 0,040
≤ 0,30
to to to to to to
0,23 0,35 0,50 3,30 0,60 0,55
15NiCuMoNb5-6-4 1.6368 ≤ 0,17 0,25 0,80 0,025 0,020 ≤ 0,30 0,25 1,00 ≤ 0,050 0,50 0,015 - - - -
to to to to to to
0,50 1,20 0,50 1,30 0,80 0,045
7CrWVNb9-6 0,04 to ≤≤ 0,50 0,10 to 0,030 0,010 1,90 to 0,05 to - ≤≤ 0,030 - 0,02 to - 0,20 to - N ≤≤ 0,03
≤≤ ≤≤ ≤≤
0,10 0,60 2,60 0,30 0,08 0,30
B = 0,0005 to
0,006
W = 1,45 to
1,75
7CrMoVTiB10-10 1.7378 0,05 to 0,15 to 0,30 to 0,020 0,010 2,20 to 0,90 to - - - 0,05 to 0,20 to -
≤≤≤≤ 0,020 N ≤≤≤≤ 0,010
0,10 0,45 0,70 2,60 1,10 0,10 0,30
B = 0,0015 to
0,0070
X11CrMo5+I 1.7362+I 0,08 0,15 0,30 0,025 0,020 4,00 0,45
≤ 0,040 ≤ 0,30
X11CrMo5+NT1 1.7362+NT1 to to to to to
c
X11CrMo5+NT2 1.7362+NT2 0,15 0,50 0,60 6,00 0,65
X11CrMo9-1+I 1.7386+I 0,08 0,25 0,30 0,025 0,020 8,00 0,90 ≤ 0,040 c
≤ 0,30
X11CrMo9-1+NT 1.7386+NT to to to to to
0,15 1,00 0,60 10,00 1.10
X10CrMoVNb9-1 1.4903 0,08 0,20 0,30 0,020 0,010 8,00 0,85 c 0,06 - 0,18 - N = 0,030
≤ 0,40 ≤ 0,040
≤ 0,30
to to to to to to to to
0,12 0,50 0,60 9,50 1,05 0,10 0,25 0,070
X10CrWMoVNb9-2 0,07 to 0,30 to 0,020 0,010 8,50 0,30 to - 0,40 to - 0,15 - N = 0,030 to
≤≤≤≤ 0,50 ≤≤≤≤ 0,40 ≤≤≤≤ 0,040
0,13 0,60 to 0,60 0,90 to 0,070
9,50 0,25
B = 0,001 to
0,006
W = 1,50 to
2,00
X11CrMoWVNb9-1-1 1.4905 0,09 to 0,10 to 0,30 to 0,020 0,010 8,50 0,90 to 0,10 to - 0,06 - 0,18 - N = 0,050 to
≤≤≤≤ 0,040
0,13 0,50 0,60 to 1,10 0,40 to to 0,090
9,50 0,10 0,25
B = 0,0005 to
0,005
W = 0,90 to
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EN 10216-2:2002/prA2:2005 (E)
1,10
X20CrMoV11-1 1.4922 0,17 0,15 0,025 0,020 10,00 0,80 0,30 ≤ 0,040 c - - 0,25 - -
≤ 1,00
≤ 0,30
to to to to to to
f 0,50 12,50 1,20 0,80 0.35
0,23
a
Elements not included in this Table shall not be intentionally added to the steel without the agreement of the purchaser, except for elements which may be added for finishing the cast. All
appropriate measures shall be taken to prevent the addition of undesirable elements from scrap or other materials used in the steel making process.
b
This requirement is not applicable provided the steel contains a sufficient amount of other nitrogen binding elements which shall be reported. When using titanium, the producer shall verify
that (Al+Ti/2)≥0,020%
c
Option 2: In order to facilitate subsequent forming operations, an agreed maximum copper content lower than indicated and an agreed specified maximum tin content shall apply
d
The content of these elements need not to be reported unless intentionally added to the cast.
e
For wall thickness ≥ 30 mm the carbon content may be increased by 0,02 % for cast and product analysis.
f
The upper carbon value of 0,23 % shall not be exceeded for product analysis.
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EN 10216-2:2002/prA2:2005 (E)
Table 3 — Permissible deviations of the product analysis from specified limits on cast analysis
given in Table 2
Element Limiting value for the cast analysis in Permissible deviation of the product
accordance with Table 2 analysis
% by mass % by mass
C ≤ 0,29 ± 0,02
≤ 0,40 ± 0,05
Si
> 0,40 to ≤ 1,00 ± 0,06
≤ 1,00 ± 0,05
Mn
> 1,00 to ≤ 1,50 ± 0,10
P ≤ 0,025 + 0,005
≤ 0,010 + 0,003
S
> 0,010 ≤ 0,020 + 0,005
Al ≤ 0,060 ± 0,005
B ≤≤≤≤ 0,007 ±±±± 0,001
≤ 1,00 ± 0,05
Cr > 1,00 to ≤ 10,00 ± 0,10
> 10,00 to ≤ 12,50 ± 0,15
Cu ≤ 0,80 ± 0,05
≤ 0,35 ± 0,03
Mo
> 0,35 to ≤ 1,20 ± 0,04
N ≤ 0,070 ± 0,01
Nb ≤ 0,10 ± 0,005
≤ 0,35 ± 0,05
Ni
> 0,35 to ≤ 1,30 ± 0,07
Ti ≤ 0,060 + 0,010
≤ 0,10 + 0,01
V
> 0,10 to ≤ 0,55 ± 0,03
W ≤≤≤≤ 2,00 ±±±± 0,10
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EN 10216-2:2002/prA2:2005 (E)
8.3 Mechanical properties
Table 4 — Mechanical properties
Steel grade Tensile properties at room temperature a b
Impact properties
Upper yield strength or proof strength Tensile Elongation Minimum average absorbed energy KV
Strength
R or Rp for Wall Thickness T A min. J
eH 0,2
Rm
a
Steel name Steel min. % at a temperature of
number
°C
T ≤≤ 16 16 << T ≤≤ 40 40 << T ≤≤ 60 60 << T ≤≤ 100 l t l t
≤≤ << ≤≤ << ≤≤ << ≤≤
g) g) g) g) g)
MPa MPa MPa MPa MPa 20 0 -10 20 0
P195GH 1.0348 195 - - - 320 to 440 27 25 - c d - c
40 28 27
P235GH 1.0345 235 225 215 - 360 to 500 25 23 - c d - c
40 28 27
P265GH 1.0425 265 255 245 - 410 to 570 23 21 - c d - c
40 28 27
20MnNb6 1.0471 355 345 335 - 500 to 650 22 20 . c - - c
40 27
16Mo3 1.5415 280 270 260 - 450 to 600 22 20 c - - c -
40 27
8MoB5-4 1.5450 400 - - - 540 to 690 19 17 c - - c -
40 27
14MoV6-3 1.7715 320 320 310 - 460 to 610 20 18 c f - - c -
40 27
10CrMo5-5 1.7338 275 275 265 - 410 to 560 22 20 c - - c -
40 27
13CrMo4-5 1.7335 290 290 280 - 440 to 590 22 20 c - - c -
40 27
10CrMo9-10 1.7380 280 280 270 - 480 to 630 22 20 c - - c -
40 27
11CrMo9-10 1.7383 355 355 355 - 540 to 680 20 18 c - - c -
40 27
25CrMo4 1.7218 345 345 345 - 540 to 690 18 15 c f - - c -
40 27
20CrMoV13-5-5 1.7779 590 590 590 - 740 to 880 16 14 c f - - c -
40 27
15NiCuMoNb5-6-4 1.6368 440 440 440 e 610 to 780 19 17 c f - - c -
440 40 27
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EN 10216-2:2002/prA2:2005 (E)
Table 4 – continues
Upper yield strength or proof strength Tensile Elongation Minimum average absorbed energy KV
Steel name Steel
R or Rp for Wall Thickness T Strength A min. J
eH 0,2
number
a
min. Rm % at a temperature of
°C
T ≤≤ 16 16 << T ≤≤ 40 40 << T ≤≤ 60 60 << T ≤≤ 100 l t l t
≤≤ << ≤≤ << ≤≤ << ≤≤
g) g) g) g) g)
MPa MPa MPa MPa MPa 20 0 -10 20 0
c f c
7CrWVMoNb9-6 400 400 400 - 510 to 740 20 18 - - -
40 27
h) c f c f
7CrMoVTiB10-10 1.7378 450 430 430 - 565 to 840 17 15 40 - - 27 -
X11CrMo5+I 1.7362+I 175 175 175 175 430 to 580 22 20 c - - c -
40 27
X11CrMo5+NT1 1.7362+NT1 280 280 280 280 480 to 640 20 18 c - - c -
40 27
X11CrMo5+NT2 1.7362+NT2 390 390 390 390 570 to 740 18 16 c - - c -
40 27
X11CrMo9-1+I 1.7386+I 210 210 210 - 460 to 640 20 18 c - - c -
40 27
X11CrMo9-1+NT 1.7386+NT 390 39
...