SIST EN 13480-2:2002/A2:2011

SLOVENSKI STANDARD
SIST EN 13480-2:2002/A2:2011
01-junij-2011
Kovinski industrijski cevovodi - 2. del: Materiali - Dopolnilo A2
Metallic industrial piping - Part 2: Materials
Metallische industrielle Rohrleitungen - Teil 2: Werkstoffe
Tuyauteries industrielles métalliques - Partie 2: Matériaux
Ta slovenski standard je istoveten z: EN 13480-2:2002/A2:2010
ICS:
77.140.75 Jeklene cevi in cevni profili Steel pipes and tubes for
za posebne namene specific use
SIST EN 13480-2:2002/A2:2011 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 13480-2:2002/A2:2011

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SIST EN 13480-2:2002/A2:2011


EUROPEAN STANDARD
EN 13480-2:2002/A2

NORME EUROPÉENNE

EUROPÄISCHE NORM
November 2010
ICS 23.040.01
English Version
Metallic industrial piping - Part 2: Materials
Tuyauteries industrielles métalliques - Partie 2: Matériaux Metallische industrielle Rohrleitungen - Teil 2: Werkstoffe
This amendment A2 modifies the European Standard EN 13480-2:2002; it was approved by CEN on 16 April 2010.

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. Up-to-date lists and bibliographical references concerning such
national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN member.

This amendment exists 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 CEN-CENELEC Management Centre has the same status as the
official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland,
Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.





EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2010 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 13480-2:2002/A2:2010: E
worldwide for CEN national Members.

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Contents Page
Foreword .3
Foreword .4
2 Normative references .4
Annex B (normative) Requirements for prevention of brittle fracture at low temperatures .6
B.1 General .6
B.2 Material selection and impact energy requirements .7
B.2.1 Method 1 .7
B.2.2 Method 2 . 15
B.2.3 Method 3 — Fracture mechanics analysis . 27
B.3 General test requirements . 28
B.3.1 General . 28
B.3.2 Sub-sized specimens . 29
B.4 Welds . 30
B.4.1 General . 30
B.4.2 Welding procedure qualification . 30
B.4.3 Production test plates . 30
B.5 Materials for use at elevated temperatures . 30
B.5.1 General . 30
B.5.2 Materials . 30
B.5.3 Welding procedure qualification and production test plates . 30
B.5.4 Start up and shut down procedure . 31
B.5.5 Pressure test . 31
Bibliography . 39

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Foreword
This document (EN 13480-2:2002/A2:2010) has been prepared by Technical Committee CEN/TC 267
“Metallic industrial piping”, the secretariat of which is held by AFNOR.
This Amendment to the European Standard EN 13480-3:2002 shall be given the status of a national standard,
either by publication of an identical text or by endorsement, at the latest by May 2011, and conflicting national
standards shall be withdrawn at the latest by May 2011.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights.
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(s).
For relationship with EU Directive(s), see informative Annex ZA, which is an integral part of this document.
This document includes the text of the amendment itself. The corrected pages of EN 13480-2 will be delivered
as issue 13 of the standard.
According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following
countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech
Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain,
Sweden, Switzerland and United Kingdom.

3

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Foreword
The text of the foreword shall include reference to EN 13480-8:
Part 8: Additional requirements for aluminium and aluminium alloy piping

Add the following references to clause 2:
2 Normative references
EN 1092-1:2007, Flanges and their joints — Circular flanges for pipes, valves, fittings and accessories, PN
designated — Part 1: Steel flanges
EN 10216-2:2002+A2:2007, Seamless steel tubes for pressure purposes — Technical delivery conditions —
Part 2: Non-alloy and alloy steel tubes with specified elevated temperature properties
EN 10216-3:2002/A1:2004, Seamless steel tubes for pressure purposes — Technical delivery conditions —
Part 3: Alloy fine grain steel tubes
EN 10216-4:2002/A1:2004, Seamless steel tubes for pressure purposes — Technical delivery conditions —
Part 4: Non-alloy and alloy steel tubes with specified low temperature properties
EN 10217-4:2002/A1:2005, Seamless steel tubes for pressure purposes — Technical delivery conditions —
Part 4: Non-alloy and alloy steel tubes with specified low temperature properties
EN 10217-6:2002/A1:2005, Welded steel tubes for pressure purposes — Technical delivery conditions — Part
6: Submerged arc welded non-alloy steel tubes with specified low temperature properties
EN 10217-3:2002/A1:2005, Welded steel tubes for pressure purposes — Technical delivery conditions —
Part 3: Alloy fine grain steel tubes
EN 10222-4:1998/A1:2001, Steel forgings for pressure purposes — Part 4: Weldable fine grain steels with
high proof strength
EN 10269:1999/A1:2006, Steels and nickel alloys for fasteners with specified elevated and/or low temperature
properties
EN 20898-2:1993, Mechanical properties of fasteners — Part 2: Nuts with specified proof load values —
Coarse thread (ISO 898-2:1992)
EN ISO 898-1:2009, Mechanical properties of fasteners made of carbon steel and alloy steel — Part 1: Bolts,
screws and studs with specified property classes — Coarse thread and fine pitch thread (ISO 898-1:2009)
EN ISO 3506-1:2009, Mechanical properties of corrosion-resistant stainless steel fasteners — Part 1: Bolts,
screws and studs (ISO 3506-1:2009)
EN ISO 3506-2:2009, Mechanical properties of corrosion-resistant stainless steel fasteners — Part 2: Nuts
(ISO 3506-2:2009)

4

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)

Delete existing Annex B and replace it with the following text:
5

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Annex B
(normative)

Requirements for prevention of brittle fracture at low temperatures
B.1 General
This annex distinguishes between pressure equipment that has design temperature for normal operation
higher or lower than 50 °C.
For pressure equipment with normal operation temperatures higher than 50 °C B.5 applies. If B.5 is not
applicable, the following rules for lower normal operation temperatures shall be used.
For pressure equipment with design temperature equal to or less than 50 °C this annex specifies three
1)
alternative methods for establishing criteria for the prevention of low temperature brittle fracture of steels in
the form of plate, strip, tubes, fittings, forgings, castings, flanges, fasteners and weldments used in pressure
2
parts. In this case, the temperature for the design T shall be determined . The criteria are based on impact
R
energy requirements at specified temperatures for the base material, heat affected zone (including the fusion
line) and weld metals.
The three methods are:
Method 1 Code of Practice:
Technical requirements
a) based on the assumption that T = T as specified in harmonised European Material
R 27J
Standards and that it is possible to achieve these minimum properties after fabrication;
b) calculated from the principles of fracture mechanics used for Method 2 for C and CMn steels
2
with yield strength < 460 N/mm and
c) based on operating experience for Ni-alloyed steels with Ni > 1,5 % up to 9 %, for austenitic
steels and for bolts and nuts.
Method 2 Method developed from the principles of fracture mechanics and from operating experiences:
A more flexible approach than Method 1 for derivation of technical requirements applicable to C,
2
CMn and low alloy ferritic steels with a specified minimum yield strength ≤ 500 N/mm and for
2
austenitic-ferritic steels with a specified minimum yield strength ≤ 550 N/mm . This method can
be applied for these steels to a wider range of thicknesses and temperatures than Method 1
because T must not be equal to T (see Figures B.2–1 to B.2–11). In addition for ferritic
R 27J
2
steels with max. 355 N/mm in PWHT condition operation experience was considered for
higher thicknesses.
Method 3 The application of a fracture mechanics analysis:
This general method is applicable to cases not covered by methods 1 or 2. This method may
also be used to justify deviations from the requirements of Method 1 or 2. Only general

1)
Including temperatures at pressure tests
2
 See EN 13480-2:2002, 3.1.3.
6

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
guidance is given on the use of this method which shall only be used in agreement with the
parties concerned.
Each of the three methods may be used independently. It is only necessary to satisfy the requirement of any
one method.
All applicable combinations of the temperatures T (minimum metal temperature) and T (temperature
M S
adjustment term) shall be considered and the lowest possible T -value (design reference temperature) shall
R
be used for the determination of the required material impact test temperature.
NOTE For definitions of temperature terms see 3.1.1 to 3.1.4.
B.2 Material selection and impact energy requirements
The methods specified in B.2.1 (Method 1) or B.2.2 (Method 2) shall be used to determine the impact energy
required to avoid brittle fracture. Alternatively, B.2.3 (Method 3) may be used to determine the required
toughness. The method used shall be fully documented, in order to ensure that compliance can be verified.
Reference thickness for constructional details is defined in Table B.5-1.
B.2.1 Method 1
B.2.1.1 General
Method 1 allows the selection of materials taken from harmonised European material standards with regard to
prevention of brittle fracture. Table B.2–1 gives an overview to the following tables by steel type and product
form.
The weld metal, the heat affected zone and other parts affected by manufacturing processes shall satisfy the
same impact energy requirements as the guaranteed minimum properties for the base material at T given in
R
the tables.
The tables list design reference temperatures for maximum thickness at given strength levels represented by
steels from harmonised European material standards with guaranteed minimum strength and impact
properties. Where it is not possible to achieve these minimum properties after fabrication a tougher material
shall be selected.
Table B.2–1 ― Guide to material selection
a)
Table Material or product form Steel group Clause
B.2–2 Plates and strips Ferritic steels B.2.1.2
B.2–3 Seamless and welded pipes
B.2–4 Bars
B.2–5 Forgings
B.2–6 Ferritic steels B.2.1.3
Ni alloyed steels (1,5 < Ni ≤ 5 %)
B.2–7 Ni-alloyed steel (9 % Ni)
B.2–8 Ferritic steels B.2.1.4
Bolts and nuts Austenitic steels
B.2–9
B.2–10
B.2–11 Austenitic steel grades Austenitic steels B.2.1.5
a)
For standardized fittings (Tees, Reducers, Elbows and Caps) T may be taken from Tables B.2-2 to
R
B.2-6 as for the applied material or product form. The reference thickness e of the fitting shall be
B
considered as equal to the reference thickness of the thicker of the mating pipes.
7

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)

NOTE Requirements for austenitic-ferritic steels are only given in B.2.2 (Method 2).
Where test pieces of at least 5 mm wide cannot be obtained, the material need not be subject to impact
testing. For pipes with nominal thickness lower than 6,3 mm no impact testing is required.
Values of the design reference temperature T shall be calculated from the metal temperature T using the
R M
values of the temperature adjustment T given in Table B.2–12.
S
B.2.1.2 Ferritic steels
Tables B.2–2 to B.2–5 list ferritic steels taken from harmonised European material standards with specified
impact properties below – 10 °C.
The tabulated value of T is based on the impact test temperature T for KV = 27 J.
R KV
Table B.2–2 — General requirements for prevention of brittle
fracture with reference thickness for plates and strips
Plates and Strips
No. European Grade Material Max. reference Design Material Remarks
as per Standard No. thickness reference group to
e
Table EN temperature CR ISO
B
D.2-1 T (°C) 15608:2000
AW PWHT
R
1 P235GH 1.0345 35 90
1.1
2 P2610028- 5GH 1.0425 35 75
– 20
2:2003
3 P295GH 1.0481 35 65
1.2
4 P355GH 1.0473 35 55
29 P275NH 1.0487 35 75 – 20
30 P275NL1 1.0488 35 75 – 40 1.1
31 P275NL2 1.1104 35 90 – 50
10028-
32 P355N 1.0562 35 55 – 20
3:2003
33 P355NH 1.0565 35 55 – 20
1.2
34 P355NL1 1.0566 35 55 – 40
35 P355NL2 1.1106 35 55 – 50
39 11MnNi5-3 1.6212 35 50 – 60
10028-
40 13MnNi6-3 1.6217 35 50 – 60 9.1
4:2003
41 15NiMn6 1.6228 35 50 – 80
a
50 P355M 1.8821 30 - – 20
a
51 P355ML1 1.8832 35 - – 40 1.2
a
52 P3510028- 5ML2 1.8833 35 - – 50
a
5:2003
53 P420M 1.8824 35 - – 20
a
54 P420ML1 1.8835 32 - – 40 2.1
a
55 P420ML2 1.8828 32 - – 50
59 P355Q 1.8866 35 60 – 20
60 P3510028- 5QH 1.8867 35 60 – 20 1.2
6:2003
61 P355QL1 1.8868 35 60 – 40
62 P355QL2 1.8869 35 60 – 60 3.1
a
TMCP steels shall not be Post Weld Heat Treated.

8

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Table B.2–3 — General requirements for prevention of brittle fracture
with reference thickness for seamless and welded tubes
Seamless and welded tubes
No. European Grade Material Max. reference Design Material Remarks
as per Standard No. thickness reference group to
Table EN e temperature CR ISO
B
D.2-1 AW PWHT T (°C) 15608:2000
R
231 P275NL1 1.0488 35 75 – 40
1.1
232 P275NL2 1.1104 35 75 – 50
233 P3510216- 5N 1.0562 35 55 – 20
234 P353:2002/A1:20045NH 1.0565 35 55 – 20
1.2
235 P355NL1 1.0566 35 55 – 40
236 P355NL2 1.1106 35 55 – 50
a)
248 P215NL 1.0451 10 10 – 40
249 P255QL 1.0452 35 40 – 50 1.1
250 P2610216- 5NL 1.0453 25 25 – 40
251 4:2002/A1:200426CrMo4-2 1.7219 15 40 – 60 5.1
252 11MnNi5-3 1.6212 35 40 – 60 9.1
253 13MnNi6-3 1.6217 35 40 – 60 9.1
306 P275NL1 1.0488 35 40 – 40
1.1
307 P275NL2 1.1104 35 40 – 50
308 10217- P355N 1.0562 35 40 – 20
309 3:2002/A1:2005 P355NH 1.0565 35 40 – 20
1.2
310 P355NL1 1.0566 35 40 – 40
311 P355NL2 1.1106 35 40 – 50
a
316 10217- P215NL 1.0451 10 10 – 40 1.1
a
317 P264:2002/A1:20055NL 1.0453 16 16 – 40 1.1
a
321 10217- P215NL 1.0451 10 10 – 40 1.1
a
322 P266:2002/A1:20055NL 1.0453 25 25 – 40 1.1
a
Thickness limitation results from wall thickness limitation in the European material standard and in the European component
standards respectively.
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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Table B.2–4 — General requirements for prevention of
brittle fracture with reference thickness for bars
Bars
No. European Grade Material Max. reference Design Material Remarks
as per Standard No. thickness reference group to
Table EN e temperature CR ISO
B
D.2-1 AW PWHT T (°C) 15608:2000
R
147 P275NH 1.0487 35 75 1.1
148 P3510273:2000 5NH 1.0565 35 55 – 20 1.2
150 P355QH 1.8867 35 55 1.2

Table B.2–5 — General requirements for prevention of
brittle fracture with reference thickness for forgings
Forgings
No. European Grade Material Max. reference Design Material Remarks
as per Standard No. thickness reference group to
Table EN e temperature CR ISO
B
D.2-1 AW PWHT T (°C) 15608:2000
R
367 10222- 13MnNi6-3 1.6217 35 70 – 60 9.1
369 15Ni3:1998 Mn6 1.6228 35 50 – 80 9.1
378 10222- P285QH 1.0478 35 85 – 20 1.2
380 P354:1998/A1:25QH1 1.0571 35 60 – 20 1.2
001
382 P420QH 1.8936 35 50 – 20 3.1

B.2.1.3 Ni –alloyed steels (Ni > 1,5 %)
Table B.2-6 lists Ni alloyed steels up to and including 5 % Nickel taken from harmonised European material
standards.
Table B.2-7 lists Ni alloyed steels with 9 % Nickel taken from harmonised European material standards.
The tabulated value of T is based on the impact test temperature T for KV = 27 J.
R KV

10

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Table B.2–6 — General requirements for prevention of brittle fracture with
reference thickness for Ni-alloyed steels with 1,5 % < Ni ≤≤ 5 %
≤≤
a
Ni-alloyed steel, 1,5 % < Ni ≤≤≤≤ 5 %
No. European Grade Material Max. reference Design Material Remarks
as per Standard No. thickness reference group to
Table EN e temperature CR ISO
B
D.2-1 T (°C) 15608:2000
AW PWHT R
plates and strips
b
42 12Ni14 1.5637 35 80 – 100
10028-
9.2
4:2003
43 X12Ni5 1.5680 35 80 – 120
seamless tubes
b
254 12Ni14 25 – 100

1.5637
10216-
b
255 12Ni14 35 40 –  90

4:2002/A1: 9.2
256 X12Ni5 25 – 120
2004
1.5680
257 X12Ni5 35 40 – 110
Forgings
b
370 12Ni14 35

b
371 12Ni14 1.5637 35 50 – 100
10222-
b
9.2
372 12Ni14 35 70

3:1998
373 X12Ni5 35
1.5680 – 120
374 X12Ni5 35 50

a
Nickel content is nominal.
b
If used at – 105 °C (e. g. ethylene application), then 27 J shall be guaranteed at this temperature.
NOTE Thickness limitation result from wall thickness limitation in European material standards.

Table B.2–7 — General requirements for prevention of brittle fracture
with reference thickness for Ni-alloyed steels with 9 % Ni

a
9 % - Ni alloys
No. European Grade Material Max. reference Design Material Remarks
as per Standard No. thickness reference group to
Table EN e temperature CR ISO
B
D.2-1 T (°C) 15608:2000
AW PWHT R
plates and strips
44 X8Ni9 1.5662
10028- b
― – 196 9.3
48 X4:2003 7Ni9 1.5663
seamless tubes
258 10216- X10Ni9
b
4:2002/A1: 1.5682 ― – 196 9.3
2004
Forgings
375 10222- X8Ni9
b
1.5662 ― – 196 9.3
3:1998
a
Nickel content is nominal.
b
Materials can be used to maximum thickness permitted in harmonised European material standards.
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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
B.2.1.4 Bolts and nuts
For other bolts and nuts than given in Table B.2-8 a specified impact energy of minimum 40 J is required at
T = RT for T ≥ − 10 °C.
KV M
If T is lower than − 10 °C, a specified impact energy of minimum 40 J is required at T ≤ T .
M KV M
Except bolting material made from austenitic stainless steels specified in Table B.2-9 and B.2-10, bolting
material with a design temperature below – 160 °C shall be impact tested at – 196 °C.
Table B.2–8 — General requirements for prevention of brittle fracture
with reference thickness for nuts and bolts for T ≥≥≥≥ -10 °C
M
European Standard Type of Thickness Impact test KV for Test temperature /
a
material limitation value
T ≥≥ -10 °C
≥≥
M

EN 10269:1999/A1:2006 All steels According to According to According to
EN EN 10269:1999, EN 10269:1999,
10269:1999/A1:2006 Table 4 Table 4
EN ISO 898-1:1999 5.6 M = < 39 + 20 °C / 40 J
M ≥ 16
8.8 M = < 39 + 20 °C / 52 J
M ≥ 16
EN 20898-2:1993 5 M = < 39 None ―
8 M = < 39 None ―
a
Starting material shall comply with EN 10269:1999/A1:2006.
12

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Table B.2–9 — General requirements for prevention of brittle fracture with reference
thickness for nuts and bolts, bolting material according to EN 10269:1999/A1:2006
Type of material Thickness Impact test T Remark
M
limitation
1.4307, 1.4301, According to According to – 196 °C Verification required
1.4303, 1.4404, EN 10269:1999, EN 10269:1999, for diameter or
1.4401, 1.4948, Table 7 Table 4 thickness > 20mm
1.4919, 1.4941,
a
1.4980
1.4429, 1.4910, According to According to – 273 °C Verification required
EN 10269:1999, EN 10269:1999, for diameter or
Table 7 Table 4 thickness > 20mm
1.5523, 1.1133 According to According to – 20 °C ―
1.6563 EN 10269:1999, EN 10269:1999,
Table 7 Table 7
1.7218 d ≤ 60 mm According to – 60 °C ―
EN 10269:1999,
60 < d ≤ 100 mm – 50 °C
Table 7
1.6582, 1.6580, According to According to – 40 °C ―
EN 10269:1999, EN 10269:1999,
1.7225
Table 7 Table 7
1.5680 d ≤ 45 mm According to – 120 °C ―
EN 10269:1999,
45 < d ≤ 75 mm – 110 °C
Table 7
1.5662 According to According to – 196 °C ―
EN 10269:1999, EN 10269:1999,
Table 7 Table 7 at – 196°C
a
When used at − 273 °C, verification testing at −196 °C according to Table 7 of EN 10269:1999 is required.

Table B.2–10 — General requirements for prevention of brittle fracture
with reference thickness for nuts and bolts
a
Standard Type of material Thickness limitation Impact test
T
M
EN ISO 3506-1:1997 A2, A3 50 – 196 °C None
M ≤ 39
70
M ≤ 24
b
EN ISO 3506-1:1997 A4, A5 50 M ≤ 39 – 60 °C None
70
M ≤ 24
EN ISO 3506-2:1997 A2, A3, 50 – 196 °C None
M ≤ 39
A4, A5
70
M ≤ 24
a
Starting material shall comply with EN 10269:1999/A1:2006.
b

– 196 °C for studs

13

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
B.2.1.5 Lowest minimum metal temperatures for austenitic stainless steels
Solution annealed austenitic stainless steels according to table B.2-11 can be applied down to temperature T
M
without impact testing, except when impact testing is required by the material standard e.g. EN 10028-7
requires impact testing at room temperature above 20 mm thick for use at cryogenic temperature (below - 75
°C according to EN 10028-7:2007).
Table B.2–11 — Austenitic stainless steels and their lowest minimum metal
temperature T
M
Material

Material T (in °C)
M
number
X1NiCrMoCu 31-27-4 1.4563
X1CrNiMoN 25-22-2 1.4466
X1CrNi 25-21 1.4335
X2CrNiMoN 17-13-3 1.4429
X2CrNiMoN 17-11-2 1.4406
− 273
X2CrNiMoN 18-12-4 1.4434
X2CrNiMo 18-15-4 1.4438
X2CrNiN 18-10 1.4311
X2CrNiMo 18-14-3 1.4435
X2CrNi 19-11 1.4306
X6CrNiTi 18-10 1.4541
X1CrNiMoCuN 25-25-5 1.4537
X1NiCrMoCuN 25-20-7 1.4529
X1CrNiMoCuN 20-18-7 1.4547
X1NiCrMoCu 25-20-5 1.4539
X2CrNiMoN 17-13-5 1.4439
X6CrNiMoTi 17-12-2 1.4571
X3CrNiMo 17-13-3 1.4436
X6CrNiMoNb 17-12-2 1.4580
X2CrNiMo 17-12-3 1.4432
− 196
X5CrNiMo 17-12-2 1.4401
X2CrNiMo 17-12-2 1.4404
X6CrNiNb 18-10 1.4550
X5CrNi 18-10 1.4301
X2CrNi 18-9 1.4307

GX5CrNi9-10 1.4308

GX5CrNiMo19-11-2 1.4408

GX2NiCrMo28-20-2 1.4458

GX2CrNi19-11 1.4309

GX2CrNiMo19-11-2 1.4409
14

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SIST EN 13480-2:2002/A2:2011
EN 13480-2:2002/A2:2010 (E)
Where the design temperature is below - 105°C weld metal and heat affected zones for austenitic stainless
steels shall meet additional requirements of EN 13480-4.
B.2.1.6 Temperature adjustment
T is a temperature adjustment which can be used under the conditions given in Table B.2–12.
S
Table B.2–12 — Temperature adjustment T
s
Ratio of pressure induced principal membrane stress
b
and
Membrane stress
Condition
maximum allowable design stress
2
> 75 % > 50 % ≤ 75 % ≤ 50 % ≤ 50 N/mm
Non welded, 0 °C
+ 10 °C + 25 °C + 50 °C
post-weld heat
treated
a
condition
As-welded condition 0 °C 0 °C 0 °C
+ 40 °C
and reference
thickness
< 35 mm
a
Also applicable for equipment where all nozzles and non-temporary welded attachments are first
welded to vessel components and these sub-assemblies are post-weld heat treated before being
assembled into the equipment by butt-welding, but the main seams are not subsequently post-weld
heat treated.
b
The membrane stress should take account of internal and external pressure and dead weight. For
walls and pipes of heat exchangers it is important that the restraint of free end displacement of the
heat exchanger pipes should also be taken into account.

B.2.2 Method 2
B.2.2.1 General
This Method 2 applies to C, CMn, fine grain steels, Ni-alloyed steels with not more than 1,5 % of Ni with a
2
specified minimum yield strength ≤ 500 N/mm and to austenitic-ferritic steels with a specified minimum yield
2
strength ≤ 550 N/mm . This Method 2, based on fracture mechanics [17] can be used to determine the
requirements to avoid brittle fracture in these steels, and may be used at a design reference temperature T
R
which is lower than the value derived by Method 1. In this procedure the design reference temperature T is
R
not equal to the impact test temperature T . The diagrams show the relationship between T and T
KV R KV
depending on reference thickness and strength level. Distinction is made for as-welded (AW) and post weld
heat treated (PWHT) condition. This method does not apply to thermomechanically-rolled steels.
Reference thickness e for constructional details is defined in Table B.4-1.
B
Parent material, welds and HAZ shall meet the impact energy KV at impact test temperature T Table B.2–13
KV.
and B.2–14 show which figure shall be used to determine the impact test temperature T or the design
KV
reference temperature T . The condition "non-welded" shall be treated as the condition PWHT.
R
If the impact energy KV requirement of 40 J instead of 27 J is used, then the impact test temperature T can
KV
be i
...