iTeh StandardsiTeh Standards
EURUSD
Your shopping cart is empty.
ISO

ISO 10863:2020

(Main)

Non-destructive testing of welds — Ultrasonic testing — Use of time-of-flight diffraction technique (TOFD)

Non-destructive testing of welds — Ultrasonic testing — Use of time-of-flight diffraction technique (TOFD)

This document specifies the application of the time-of-flight diffraction (TOFD) technique to the semi- or fully automated ultrasonic testing of fusion-welded joints in metallic materials of minimum thickness 6 mm. It applies to full penetration welded joints of simple geometry in plates, pipes, and vessels, where both the weld and the parent material are low-alloyed carbon steel. Where specified and appropriate, TOFD can also be used on other types of materials that exhibit low ultrasonic attenuation (especially that due to scatter). Where material-dependent ultrasonic parameters are specified in this document, they are based on steels having a sound velocity of (5 920 ± 50) m/s for longitudinal waves and (3 255 ± 30) m/s for transverse waves. It is necessary to take this fact into account when testing materials with a different velocity. This document makes reference to ISO 16828 and provides guidance on the specific capabilities and limitations of TOFD for the detection, location, sizing and characterization of discontinuities in fusion-welded joints. TOFD can be used as a stand-alone method or in combination with other non-destructive testing (NDT) methods or techniques, for manufacturing inspection, and for in-service inspection. This document specifies four testing levels (A, B, C, D) in accordance with ISO 17635 and corresponding to an increasing level of testing reliability. Guidance on the selection of testing levels is provided. This document permits assessment of TOFD indications for acceptance purposes. This assessment is based on the evaluation of transmitted, reflected and diffracted ultrasonic signals within a generated TOFD image. This document does not include acceptance levels for discontinuities.

Essais non destructifs des assemblages soudés — Contrôle par ultrasons — Utilisation de la technique de diffraction des temps de vol (TOFD)

Le présent document spécifie l'application de la technique de diffraction des temps de vol (méthode TOFD, time-of-flight diffraction) pour le contrôle par ultrasons semi-automatique ou entièrement automatique des assemblages soudés par fusion de matériaux métalliques d'épaisseur minimale de 6 mm. Cette technique s'applique aux joints soudés à pleine pénétration de géométrie simple sur plaques, aux tubes et aux récipients, dans lesquels le métal de base et le métal fondu sont tous les deux constitués d'acier au carbone faiblement allié. Dans le cas où son utilisation est spécifiée et qu'elle s'avère appropriée, la méthode TOFD peut également être utilisée sur d'autres types de matériaux qui présentent une atténuation ultrasonore faible (spécialement celle due à la dispersion). Lorsque les paramètres ultrasonores dépendant du matériau sont spécifiés dans le présent document, ils sont basés sur les aciers qui présentent une vitesse de propagation sonore de (5 920 ± 50) m/s pour les ondes longitudinales et de (3 255 ± 30) m/s pour les ondes transversales. Il est nécessaire de prendre cela en compte lors du contrôle de matériaux ayant des vitesses de propagation différentes. Le présent document fait référence à l'ISO 16828 et fournit des lignes directrices sur les possibilités et les limitations spécifiques de la méthode TOFD pour la détection, la localisation, le dimensionnement et la caractérisation des discontinuités dans les joints soudés par fusion. La méthode TOFD peut être utilisée de manière autonome ou en combinaison avec d'autres méthodes ou techniques d'essais non destructifs (END), pour le contrôle de fabrication et pour le contrôle en cours de service. Le présent document spécifie quatre niveaux d'examen (A, B, C, D) conformément à l'ISO 17635, correspondant à des niveaux croissants de fiabilité de contrôle. Des lignes directrices relatives au choix des niveaux d'examen sont données. Le présent document permet l'évaluation des indications TOFD à des fins d'acceptation. Cette évaluation est basée sur l'appréciation des signaux ultrasonores transmis, réfléchis ou diffractés dans une image produite par la méthode TOFD. Le présent document ne comporte pas de niveaux d'acceptation pour les discontinuités.

General Information

Status
Published
Publication Date
13-May-2020
ICS
25.160.40 - Welded joints and welds
Technical Committee
ISO/TC 44/SC 5 - Testing and inspection of welds
Drafting Committee
ISO/TC 44/SC 5/WG 2 - Ultrasonic testing of welds
Current Stage
6060 - International Standard published
Start Date
05-May-2020
Due Date
09-Aug-2019
Completion Date
14-May-2020
Ref Project

Relations

Consolidates
ISO 1083:2018 - Spheroidal graphite cast irons — Classification
Effective Date
06-Jun-2022
Revises
ISO 10863:2011 - Non-destructive testing of welds — Ultrasonic testing — Use of time-of-flight diffraction technique (TOFD)
Effective Date
17-Feb-2018

Buy Standard

ISO 10863:2020 - Non-destructive testing of welds -- Ultrasonic testing -- Use of time-of-flight diffraction technique (TOFD)ISO 10863:2020 - Non-destructive testing of welds -- Ultrasonic testing -- Use of time-of-flight diffraction technique (TOFD)
PreviousNext
Standard
ISO 10863:2020 - Non-destructive testing of welds -- Ultrasonic testing -- Use of time-of-flight diffraction technique (TOFD)
English language
37 pages
sale 15% off
Preview
sale 15% off
Preview
ISO 10863:2020 - Non-destructive testing of welds -- Ultrasonic testing -- Use of time-of-flight diffraction technique (TOFD)ISO 10863:2020 - Non-destructive testing of welds -- Ultrasonic testing -- Use of time-of-flight diffraction technique (TOFD)
PreviousNext
Standard
ISO 10863:2020 - Non-destructive testing of welds -- Ultrasonic testing -- Use of time-of-flight diffraction technique (TOFD)
English language
37 pages
sale 15% off
Preview
sale 15% off
Preview
ISO 10863:2020 - Essais non destructifs des assemblages soudés -- Contrôle par ultrasons -- Utilisation de la technique de diffraction des temps de vol (TOFD)ISO 10863:2020 - Essais non destructifs des assemblages soudés -- Contrôle par ultrasons -- Utilisation de la technique de diffraction des temps de vol (TOFD)
PreviousNext
Standard
ISO 10863:2020 - Essais non destructifs des assemblages soudés -- Contrôle par ultrasons -- Utilisation de la technique de diffraction des temps de vol (TOFD)
French language
38 pages
sale 15% off
Preview
sale 15% off
Preview

Standards Content (Sample)

INTERNATIONAL ISO
STANDARD 10863
Second edition
2020-05
Non-destructive testing of welds —
Ultrasonic testing — Use of time-of-
flight diffraction technique (TOFD)
Essais non destructifs des assemblages soudés — Contrôle par ultrasons
— Utilisation de la technique de diffraction des temps de vol (TOFD)
Reference number
ISO 10863:2020(E)
©
ISO 2020

---------------------- Page: 1 ----------------------
ISO 10863:2020(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2020
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting
on the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address
below or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Geneva
Phone: +41 22 749 01 11
Fax: +41 22 749 09 47
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
ii © ISO 2020 – All rights reserved

---------------------- Page: 2 ----------------------
ISO 10863:2020(E)

Contents Page
Foreword .v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 2
4 General remarks on the capabilities of the technique . 2
5 Testing levels . 3
6 Information required prior to testing . 4
6.1 Items to be defined by specification . 4
6.2 Specific information required by the operator before testing . 4
6.3 Written test instruction or procedure . 4
7 Requirements for test personnel and test equipment . 5
7.1 Personnel qualifications . 5
7.2 Test equipment . 5
7.2.1 Ultrasonic instrument . 5
7.2.2 Ultrasonic probes . 5
7.2.3 Scanning mechanisms . 5
8 Preparation for testing . 5
8.1 Volume to be tested . 5
8.2 Setup of probes . 6
8.3 Scan increment setting . 7
8.4 Geometry considerations . 7
8.5 Preparation of scanning surfaces . 7
8.6 Temperature . 8
8.7 Couplant . 8
8.8 Provision of datum points . 8
9 Testing of base material . 8
10 Range and sensitivity settings . 8
10.1 Settings . 8
10.1.1 General. 8
10.1.2 Time window . 8
10.1.3 Time-to-depth conversion . 8
10.1.4 Sensitivity settings . 9
10.2 Checking of the settings . 9
10.3 Reference blocks . 9
10.3.1 General. 9
10.3.2 Material . 9
10.3.3 Dimensions and shape .10
10.3.4 Reference reflectors .10
11 Weld testing .10
12 Interpretation and analysis of TOFD images .11
12.1 General .11
12.2 Assessing the quality of the TOFD image .11
12.3 Identification of relevant TOFD indications .11
12.4 Classification of relevant TOFD indications .11
12.4.1 General.11
12.4.2 TOFD indications from surface-breaking discontinuities .12
12.4.3 TOFD indications from embedded discontinuities .12
12.4.4 Unclassified TOFD indications .13
12.5 Determination of location .13
12.6 Definition and determination of length and height .13
© ISO 2020 – All rights reserved iii

---------------------- Page: 3 ----------------------
ISO 10863:2020(E)

12.6.1 General.13
12.6.2 Determination of length .14
12.6.3 Determination of height .16
12.7 Evaluation against acceptance criteria .17
13 Test report .17
Annex A (informative) Reference blocks .19
Annex B (informative) Examples of TOFD scans .24
Bibliography .37
iv © ISO 2020 – All rights reserved

---------------------- Page: 4 ----------------------
ISO 10863:2020(E)

Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular, the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www .iso .org/ directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www .iso .org/ patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO's adherence to the
World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT) see www .iso .org/
iso/ foreword .html.
This document was prepared by Technical Committee ISO/TC 44, Welding and allied processes,
Subcommittee SC 5, Testing and inspection of welds.
This second edition cancels and replaces the first edition (ISO 10863:2011), which has been technically
revised.
The main changes compared to the previous edition are as follows:
— the whole document has been updated to the state of the art; ISO 22232 series has been taken into
account;
— Clause 3 has been updated;
— Figure 1 to Figure 6 have been added;
— Figure B.1 to Figure B.18 have been updated.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www .iso .org/ members .html.
Official interpretations of ISO/TC 44 documents, where they exist, are available from this page: https://
committee .iso .org/ sites/ tc44/ home/ interpretation .html.
© ISO 2020 – All rights reserved v

---------------------- Page: 5 ----------------------
INTERNATIONAL STANDARD ISO 10863:2020(E)
Non-destructive testing of welds — Ultrasonic testing —
Use of time-of-flight diffraction technique (TOFD)
1 Scope
This document specifies the application of the time-of-flight diffraction (TOFD) technique to the
semi- or fully automated ultrasonic testing of fusion-welded joints in metallic materials of minimum
thickness 6 mm.
It applies to full penetration welded joints of simple geometry in plates, pipes, and vessels, where both
the weld and the parent material are low-alloyed carbon steel. Where specified and appropriate, TOFD
can also be used on other types of materials that exhibit low ultrasonic attenuation (especially that due
to scatter).
Where material-dependent ultrasonic parameters are specified in this document, they are based on
steels having a sound velocity of (5 920 ± 50) m/s for longitudinal waves and (3 255 ± 30) m/s for
transverse waves. It is necessary to take this fact into account when testing materials with a different
velocity.
This document makes reference to ISO 16828 and provides guidance on the specific capabilities and
limitations of TOFD for the detection, location, sizing and characterization of discontinuities in fusion-
welded joints. TOFD can be used as a stand-alone method or in combination with other non-destructive
testing (NDT) methods or techniques, for manufacturing inspection, and for in-service inspection.
This document specifies four testing levels (A, B, C, D) in accordance with ISO 17635 and corresponding
to an increasing level of testing reliability. Guidance on the selection of testing levels is provided.
This document permits assessment of TOFD indications for acceptance purposes. This assessment is
based on the evaluation of transmitted, reflected and diffracted ultrasonic signals within a generated
TOFD image.
This document does not include acceptance levels for discontinuities.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments) applies.
ISO 5577, Non-destructive testing — Ultrasonic testing — Vocabulary
ISO 9712, Non-destructive testing — Qualification and certification of NDT personnel
ISO 16828, Non-destructive testing — Ultrasonic testing — Time-of-flight diffraction technique as a
method for detection and sizing of discontinuities
ISO 17640, Non-destructive testing of welds — Ultrasonic testing — Techniques, testing levels, and
assessment
1)
ISO 22232-1 , Non-destructive testing — Characterization and verification of ultrasonic test equipment —
Part 1: Instruments
1) Under preparation. (Preparation at the time of publication: ISO/FDIS 22232-1.)
© ISO 2020 – All rights reserved 1

---------------------- Page: 6 ----------------------
ISO 10863:2020(E)

2)
ISO 22232-2 , Non-destructive testing — Characterization and verification of ultrasonic test equipment —
Part 2: Probes
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 5577 and the following apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https:// www .iso .org/ obp
— IEC Electropedia: available at http:// www .electropedia .org/
3.1
time-of-flight diffraction image
TOFD image
two-dimensional image, constructed by collecting adjacent A-scans while moving the time-of-flight
diffraction setup (3.3)
Note 1 to entry: The signal amplitude of the A-scans is typically represented by grey-scale values.
3.2
time-of-flight diffraction indication
TOFD indication
pattern or disturbance in the time-of-flight diffraction image (3.1) which can need further evaluation
3.3
time-of-flight diffraction setup
TOFD setup
probe arrangement defined by probe characteristics (e.g. frequency, probe element size, beam angle,
wave mode) and probe centre separation (3.6)
3.4
beam intersection point
point of intersection of the two main beam axes
3.5
lateral wave
longitudinal wave traveling the shortest path from transmitter probe to receiver probe
3.6
probe centre separation
PCS
distance between the index points of the two probes
Note 1 to entry: The PCS for two probes located on a curved surface is the straight-line, geometric separation
between the two probe index points and not the distance measured along the surface.
3.7
offset scan
scan parallel to the weld axis, where the beam intersection point (3.4) is not on the centreline of the weld
4 General remarks on the capabilities of the technique
General principles of the TOFD technique are described in ISO 16828. For the testing of fusion-welded
joints, some specific capabilities and limitations of the technique shall be considered.
2) Under preparation. (Preparation at the time of publication: ISO/DIS 22232-2.)
2 © ISO 2020 – All rights reserved

---------------------- Page: 7 ----------------------
ISO 10863:2020(E)

The TOFD technique is an ultrasonic image-generating technique, which offers the capability of
detection, location, and sizing. To a certain extent, characterization of discontinuities in the weld
material as well as in the adjacent parent material is also possible.
Compared with purely reflection-based techniques, the TOFD technique, which is based on diffraction
as well as reflection, is less sensitive to the orientation of the discontinuity. Discontinuities oriented
perpendicular to the surface, and at intermediate angles of tilt, are detectable as well as discontinuities
in the weld fusion faces.
In certain circumstances (e.g. thickness, weld preparation, scope of testing) more than one single TOFD
setup is required.
A typical TOFD image is linear in time (vertical axis) and probe movement (horizontal axis). Because of
the V-configuration of the ultrasound paths, the location of a possible discontinuity is then non-linear.
TOFD testing shall be carried out in a correct and consistent way, such that valid images are generated
which can be evaluated correctly, e.g. coupling losses and data acquisition errors shall be avoided,
see 12.2.
The interpretation of TOFD images requires skilled and experienced operators. Some typical TOFD
images of discontinuities in fusion-welded joints are provided in Annex B.
There is a reduced capability for the detection of discontinuities close to or connected with the scanning
surface or with the opposite surface. This shall be considered especially for crack-sensitive steels or
at in-service inspections. In cases where full coverage of these zones is required, additional measures
shall be taken, e.g. TOFD can be accompanied by other NDT methods or techniques.
Diffracted signals from weld discontinuities can have small amplitude responses. The grain scatter
effect from coarse-grained material can hinder the detection and evaluation of such responses. This
shall be taken into account whenever testing such material.
5 Testing levels
This document specifies four testing levels (A, B, C and D, see Table 1). From testing level A to testing
level C an increasing reliability is achieved.
Table 1 — Testing levels
Reference block for Reference block for
Written
Testing level TOFD setup setup verification sensitivity settings Offset scan
test procedure
(see 8.2) (see 10.1.4)
A As in Table 2 No No No This document
B As in Table 2 No Yes No This document
C As in Table 2 Yes Yes a Yes
As defined by
D Yes Yes a Yes
specification
a
The necessity, number and position of offset scans shall be determined.
If the specified acceptance level requires detection of a certain discontinuity size at both surfaces or
one surface of the weld (see Clause 4), this can necessitate the use of techniques or methods outside the
scope of this document.
For manufacturing inspections (see also ISO 17635), all testing levels are applicable. Level A is only
applicable for wall thicknesses up to 50 mm. For in-service inspections, only testing level D shall be
applied.
© ISO 2020 – All rights reserved 3

---------------------- Page: 8 ----------------------
ISO 10863:2020(E)

6 Information required prior to testing
6.1 Items to be defined by specification
Information on the following items is required:
a) purpose and extent of TOFD testing (see Clause 5 and Clause 8);
b) testing levels (see Clause 5), e.g.:
1) whether a written test procedure is required,
2) whether reference blocks are required;
c) specification of reference blocks, if required (see 10.3);
d) manufacturing or operation stage at which the testing is to be carried out;
e) requirements for: temperature, access and surface conditions (see Clause 8);
f) reporting requirements (see Clause 13);
g) acceptance criteria;
h) personnel qualifications (see 7.1).
6.2 Specific information required by the operator before testing
Before any testing of a welded joint can begin, the operator shall have access to all the information as
specified in 6.1 together with the following additional information:
a) written test instruction or procedure (see 6.3), if required;
b) type(s) of parent material and product form (i.e. cast, forged, rolled);
c) joint preparation and dimensions;
d) welding procedure or relevant information on the welding process;
e) time of testing relative to any post-weld heat treatment;
f) result of any parent metal testing carried out prior to and/or after welding;
g) discontinuity type and morphology to be detected.
6.3 Written test instruction or procedure
For testing levels A and B, this document satisfies the need for a written test procedure.
For testing levels C and D, or where the techniques described in this document are not applicable to the
welded joint to be tested, a specific written test procedure shall be used.
When data collection is performed by personnel qualified to Level 1 according to ISO 9712, a written test
instruction shall be prepared. The written test instruction shall contain as a minimum the information
listed in Clause 13.
4 © ISO 2020 – All rights reserved

---------------------- Page: 9 ----------------------
ISO 10863:2020(E)

7 Requirements for test personnel and test equipment
7.1 Personnel qualifications
In addition to a general knowledge of ultrasonic weld testing, all personnel shall be competent in
the TOFD technique. Documented evidence of their competence (level of training and experience) is
required.
Preparation of written test instructions, final off-line analysis of data, and acceptance of the report shall
be performed by personnel qualified as a minimum to Level 2 in accordance with ISO 9712 or equivalent
in ultrasonic testing in the relevant industrial sector. In accordance with a written instruction and
under the supervision of Level 2 or Level 3 personnel, equipment setup, data acquisition, data storage,
and report preparation can be performed by personnel qualified to a minimum of Level 1 in accordance
with ISO 9712 or equivalent in ultrasonic testing in the relevant industrial sector.
For data acquisition, the Level 1 personnel may be supported by an assistant technician.
In cases where the above minimum qualifications are not considered adequate, job-specific training
shall be carried out.
7.2 Test equipment
7.2.1 Ultrasonic instrument
The ultrasonic instrument used for the TOFD technique shall comply with the requirements of
ISO 22232-1, where applicable.
The TOFD software shall not mask any problems such as loss of coupling, missing scan lines,
synchronization errors or electronic noise.
In addition, the requirements of ISO 16828 shall apply, taking into account the following:
a) the instrument shall be able to select an appropriate portion of the time base within which A-scans
are digitized;
b) it is recommended that a sampling rate of the A-scan of at least 6 times the nominal probe frequency
be used.
7.2.2 Ultrasonic probes
Probes used for the TOFD technique on welds shall comply with ISO 22232-2 and ISO 16828.
Adaptation of probes to curved scanning surfaces shall comply with ISO 17640.
A recommendation for the selection of probes is given in Table 2.
7.2.3 Scanning mechanisms
The requirements of ISO 16828 shall apply. To achieve consistency of the images (collected data),
guiding mechanisms may be used.
8 Preparation for testing
8.1 Volume to be tested
Testing shall be performed in accordance with ISO 16828. The purpose of the testing shall be defined by
specification. Based on this, the volume to be tested shall be determined.
© ISO 2020 – All rights reserved 5

---------------------- Page: 10 ----------------------
ISO 10863:2020(E)

The volume to be tested is located between the probes. For testing levels A and B, the probes shall be
placed symmetrically about the weld centreline. For testing levels C and D, additional offset scans may
be required.
For manufacturing inspection, the volume to be tested is defined as the zone which includes weld
and parent material for at least 10 mm on each side of the weld or the width of the heat-affected zone,
whichever is greater. In all cases, the whole volume to be tested shall be covered.
Normally these tests are performed in accordance with recognized standards applying acceptance
levels for quality assurance. If fitness-for-purpose methods are applied, then corresponding acceptance
criteria shall be specified.
For in-service inspections, the volume to be tested may be targeted to specific areas of interest, e.g. the
inner third of the weld body. The acceptance criteria and minimum discontinuity size to be detected in
the area of interest shall be specified.
8.2 Setup of probes
The probes shall be set up to ensure adequate coverage and optimum conditions for the initiation
and detection of diffracted signals in the area of interest. For butt welds of simple geometry and with
narrow weld crowns at the opposite surface, the testing shall be performed in one or more setups
(scans) dependent on the wall thickness (see Table 2). For other configurations, e.g. X-shaped welds,
different base metal thickness at either side of the weld, or tapering, Table 2 may be used as guidance.
In this case, the effectiveness and coverage of the setup shall be verified by using reference blocks.
Selection of probes for full coverage of the complete weld thickness should follow Table 2. Care should
be taken to choose appropriate combinations of parameters. For example, in the thickness range 15 mm
to 35 mm a frequency of 10 MHz, a beam angle of 70° and a transducer size of 3 mm can be appropriate
fo
...

FINAL
INTERNATIONAL ISO/FDIS
DRAFT
STANDARD 10863
ISO/TC 44/SC 5
Non-destructive testing of welds —
Secretariat: AFNOR
Ultrasonic testing — Use of time-of-
Voting begins on:
2020­02­22 flight diffraction technique (TOFD)
Voting terminates on:
Contrôle non destructif des assemblages soudés — Contrôle par
2020­04­18
ultrasons — Utilisation de la technique de diffraction des temps de vol
(méthode TOFD)
ISO/CEN PARALLEL PROCESSING
RECIPIENTS OF THIS DRAFT ARE INVITED TO
SUBMIT, WITH THEIR COMMENTS, NOTIFICATION
OF ANY RELEVANT PATENT RIGHTS OF WHICH
THEY ARE AWARE AND TO PROVIDE SUPPOR TING
DOCUMENTATION.
IN ADDITION TO THEIR EVALUATION AS
Reference number
BEING ACCEPTABLE FOR INDUSTRIAL, TECHNO­
ISO/FDIS 10863:2020(E)
LOGICAL, COMMERCIAL AND USER PURPOSES,
DRAFT INTERNATIONAL STANDARDS MAY ON
OCCASION HAVE TO BE CONSIDERED IN THE
LIGHT OF THEIR POTENTIAL TO BECOME STAN­
DARDS TO WHICH REFERENCE MAY BE MADE IN
©
NATIONAL REGULATIONS. ISO 2020

---------------------- Page: 1 ----------------------
ISO/FDIS 10863:2020(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2020
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting
on the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address
below or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH­1214 Vernier, Geneva
Phone: +41 22 749 01 11
Fax: +41 22 749 09 47
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
ii © ISO 2020 – All rights reserved

---------------------- Page: 2 ----------------------
ISO/FDIS 10863:2020(E)

Contents Page
Foreword .v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 2
4 General remarks on the capabilities of the technique . 2
5 Testing levels . 3
6 Information required prior to testing . 4
6.1 Items to be defined by specification . 4
6.2 Specific information required by the operator before testing . 4
6.3 Written test instruction or procedure . 4
7 Requirements for test personnel and test equipment . 5
7.1 Personnel qualifications . 5
7.2 Test equipment . 5
7.2.1 Ultrasonic instruments . 5
7.2.2 Ultrasonic probes . 5
7.2.3 Scanning mechanisms . 5
8 Preparation for testing . 5
8.1 Volume to be tested . 5
8.2 Setup of probes . 6
8.3 Scan increment setting . 7
8.4 Geometry considerations . 7
8.5 Preparation of scanning surfaces . 7
8.6 Temperature . 7
8.7 Couplant . 7
8.8 Provision of datum points . 8
9 Testing of base material . 8
10 Range and sensitivity settings . 8
10.1 Settings . 8
10.1.1 General. 8
10.1.2 Time window . 8
10.1.3 Time­to­depth conversion . 8
10.1.4 Sensitivity settings . 8
10.2 Checking of the settings . 9
10.3 Reference blocks . 9
10.3.1 General. 9
10.3.2 Material . 9
10.3.3 Dimensions and shape . 9
10.3.4 Reference reflectors .10
11 Weld testing .10
12 Interpretation and analysis of TOFD images .10
12.1 General .10
12.2 Assessing the quality of the TOFD image .11
12.3 Identification of relevant TOFD indications .11
12.4 Classification of relevant TOFD indications .11
12.4.1 General.11
12.4.2 TOFD indications from surface­breaking discontinuities .11
12.4.3 TOFD indications from embedded discontinuities .12
12.4.4 Unclassified TOFD indications .12
12.5 Determination of location .12
12.6 Definition and determination of length and height .13
© ISO 2020 – All rights reserved iii

---------------------- Page: 3 ----------------------
ISO/FDIS 10863:2020(E)

12.6.1 General.13
12.6.2 Determination of length .14
12.6.3 Determination of height .16
12.7 Evaluation against acceptance criteria .17
13 Test report .17
Annex A (informative) Reference blocks .19
Annex B (informative) Examples of TOFD scans .24
Bibliography .37
iv © ISO 2020 – All rights reserved

---------------------- Page: 4 ----------------------
ISO/FDIS 10863:2020(E)

Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non­governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular, the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www .iso .org/ directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www .iso .org/ patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO's adherence to the
World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT) see www .iso .org/
iso/ foreword .html.
This document was prepared by Technical Committee ISO/TC 44, Welding and allied processes,
Subcommittee SC 5, Testing and inspection of welds.
This second edition cancels and replaces the first edition (ISO 10863:2011), which has been technically
revised.
The main changes compared to the previous edition are as follows:
— the whole document has been updated to the state of the art; ISO 22232 series has been taken into
account;
— Clause 3 has been updated;
— Figure 1 to Figure 6 have been added;
— Figure B.1 to Figure B.18 have been updated.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www .iso .org/ members .html.
Official interpretations of ISO/TC 44 documents, where they exist, are available from this page: https://
committee .iso .org/ sites/ tc44/ home/ interpretation .html.
© ISO 2020 – All rights reserved v

---------------------- Page: 5 ----------------------
FINAL DRAFT INTERNATIONAL STANDARD ISO/FDIS 10863:2020(E)
Non-destructive testing of welds — Ultrasonic testing —
Use of time-of-flight diffraction technique (TOFD)
1 Scope
This document specifies the application of the time-of-flight diffraction (TOFD) technique to the
semi- or fully automated ultrasonic testing of fusion-welded joints in metallic materials of minimum
thickness 6 mm.
It applies to full penetration welded joints of simple geometry in plates, pipes, and vessels, where both
the weld and the parent material are low-alloyed carbon steel. Where specified and appropriate, TOFD
can also be used on other types of materials that exhibit low ultrasonic attenuation (especially that due
to scatter).
Where material-dependent ultrasonic parameters are specified in this document, they are based on
steels having a sound velocity of (5 920 ± 50) m/s for longitudinal waves and (3 255 ± 30) m/s for
transverse waves. It is necessary to take this fact into account when testing materials with a different
velocity.
This document makes reference to ISO 16828 and provides guidance on the specific capabilities and
limitations of TOFD for the detection, location, sizing and characterization of discontinuities in fusion­
welded joints. TOFD can be used as a stand-alone method or in combination with other non-destructive
testing (NDT) methods or techniques, for manufacturing inspection, and for in-service inspection.
This document specifies four testing levels (A, B, C, D) in accordance with ISO 17635 and corresponding
to an increasing level of testing reliability. Guidance on the selection of testing levels is provided.
This document permits assessment of TOFD indications for acceptance purposes. This assessment is
based on the evaluation of transmitted, reflected and diffracted ultrasonic signals within a generated
TOFD image.
This document does not include acceptance levels for discontinuities.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments) applies.
ISO 5577, Non-destructive testing — Ultrasonic testing — Vocabulary
ISO 9712, Non-destructive testing — Qualification and certification of NDT personnel
ISO 16828, Non-destructive testing — Ultrasonic testing — Time-of-flight diffraction technique as a
method for detection and sizing of discontinuities
ISO 17640, Non-destructive testing of welds — Ultrasonic testing — Techniques, testing levels, and
assessment
1)
ISO 22232­1 , Non-destructive testing — Characterization and verification of ultrasonic test equipment —
Part 1: Instruments
1) Under preparation. (Preparation at the time of publication: ISO/DIS 22232­1.)
© ISO 2020 – All rights reserved 1

---------------------- Page: 6 ----------------------
ISO/FDIS 10863:2020(E)

2)
ISO 22232­2 , Non-destructive testing — Characterization and verification of ultrasonic test equipment —
Part 2: Probes
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 5577 and the following apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https:// www .iso .org/ obp
— IEC Electropedia: available at http:// www .electropedia .org/
3.1
time-of-flight diffraction image
TOFD image
two-dimensional image, constructed by collecting adjacent A-scans while moving the time-of-flight
diffraction setup (3.3)
Note 1 to entry: The signal amplitude of the A-scans is typically represented by grey-scale values.
3.2
time-of-flight diffraction indication
TOFD indication
pattern or disturbance in the time-of-flight diffraction image (3.1) which can need further evaluation
3.3
time-of-flight diffraction setup
TOFD setup
probe arrangement defined by probe characteristics (e.g. frequency, probe element size, beam angle,
wave mode) and probe centre separation (3.6)
3.4
beam intersection point
point of intersection of the two main beam axes
3.5
lateral wave
longitudinal wave traveling the shortest path from transmitter probe to receiver probe
3.6
probe centre separation
PCS
distance between the index points of the two probes
Note 1 to entry: The PCS for two probes located on a curved surface is the straight-line, geometric separation
between the two probe index points and not the distance measured along the surface.
3.7
offset scan
scan parallel to the weld axis, where the beam intersection point (3.4) is not on the centreline of the weld
4 General remarks on the capabilities of the technique
General principles of the TOFD technique are described in ISO 16828. For the testing of fusion-welded
joints, some specific capabilities and limitations of the technique shall be considered.
2) Under preparation. (Preparation at the time of publication: ISO/DIS 22232­2.)
2 © ISO 2020 – All rights reserved

---------------------- Page: 7 ----------------------
ISO/FDIS 10863:2020(E)

The TOFD technique is an ultrasonic image-generating technique, which offers the capability of
detection, location, and sizing. To a certain extent, characterization of discontinuities in the weld
material as well as in the adjacent parent material is also possible.
Compared with purely reflection-based techniques, the TOFD technique, which is based on diffraction
as well as reflection, is less sensitive to the orientation of the discontinuity. Discontinuities oriented
perpendicular to the surface, and at intermediate angles of tilt, are detectable as well as discontinuities
in the weld fusion faces.
In certain circumstances (e.g. thickness, weld preparation, scope of testing) more than one single TOFD
setup is required.
A typical TOFD image is linear in time (vertical axis) and probe movement (horizontal axis). Because of
the V-configuration of the ultrasound paths, the location of a possible discontinuity is then non-linear.
TOFD testing shall be carried out in a correct and consistent way, such that valid images are generated
which can be evaluated correctly, e.g. coupling losses and data acquisition errors shall be avoided,
see 12.2.
The interpretation of TOFD images requires skilled and experienced operators. Some typical TOFD
images of discontinuities in fusion-welded joints are provided in Annex B.
There is a reduced capability for the detection of discontinuities close to or connected with the scanning
surface or with the opposite surface. This shall be considered especially for crack-sensitive steels or
at in-service inspections. In cases where full coverage of these zones is required, additional measures
shall be taken, e.g. TOFD can be accompanied by other NDT methods or techniques.
Diffracted signals from weld discontinuities can have small amplitude responses. The grain scatter
effect from coarse­grained material can hinder the detection and evaluation of such responses. This
shall be taken into account whenever testing such material.
5 Testing levels
This document specifies four testing levels (A, B, C and D, see Table 1). From testing level A to testing
level C an increasing reliability is achieved.
Table 1 — Testing levels
Reference block for Reference block for
Written
Testing level TOFD setup setup verification sensitivity settings Offset scan
test procedure
(see 8.2) (see 10.1.4)
A As in Table 2 No No No This document
B As in Table 2 No Yes No This document
C As in Table 2 Yes Yes a Yes
As defined by
D Yes Yes a Yes
specification
a
The necessity, number and position of offset scans shall be determined.
If the specified acceptance level requires detection of a certain discontinuity size at both surfaces or
one surface of the weld (see Clause 4), this can necessitate the use of techniques or methods outside the
scope of this document.
For manufacturing inspections (see also ISO 17635), all testing levels are applicable. Level A is only
applicable for wall thicknesses up to 50 mm. For in-service inspections, only testing level D shall be
applied.
© ISO 2020 – All rights reserved 3

---------------------- Page: 8 ----------------------
ISO/FDIS 10863:2020(E)

6 Information required prior to testing
6.1 Items to be defined by specification
Information on the following items is required:
a) purpose and extent of TOFD testing (see Clauses 5 and Clause 8);
b) testing levels (see Clause 5), e.g.:
1) whether a written test procedure is required,
2) whether reference blocks are required;
c) specification of reference blocks, if required (see 10.3);
d) manufacturing or operation stage at which the testing is to be carried out;
e) requirements for: temperature, access and surface conditions (see Clause 8);
f) reporting requirements (see Clause 13);
g) acceptance criteria;
h) personnel qualifications (see 7.1).
6.2 Specific information required by the operator before testing
Before any testing of a welded joint can begin, the operator shall have access to all the information as
specified in 6.1 together with the following additional information:
a) written test instruction or procedure (see 6.3), if required;
b) type(s) of parent material and product form (i.e. cast, forged, rolled);
c) joint preparation and dimensions;
d) welding procedure or relevant information on the welding process;
e) time of testing relative to any post-weld heat treatment;
f) result of any parent metal testing carried out prior to and/or after welding;
g) discontinuity type and morphology to be detected.
6.3 Written test instruction or procedure
For testing levels A and B, this document satisfies the need for a written test procedure.
For testing levels C and D, or where the techniques described in this document are not applicable to the
welded joint to be tested, a specific written test procedure shall be used.
When data collection is performed by personnel certified to Level 1 according to ISO 9712, a written test
instruction shall be prepared. The written test instruction shall contain as a minimum the information
listed in Clause 13.
4 © ISO 2020 – All rights reserved

---------------------- Page: 9 ----------------------
ISO/FDIS 10863:2020(E)

7 Requirements for test personnel and test equipment
7.1 Personnel qualifications
In addition to a general knowledge of ultrasonic weld testing, all personnel shall be competent in
the TOFD technique. Documented evidence of their competence (level of training and experience) is
required.
Preparation of written test instructions, final off-line analysis of data, and acceptance of the report shall
be performed by personnel qualified as a minimum to Level 2 in accordance with ISO 9712 or equivalent
in ultrasonic testing in the relevant industrial sector. In accordance with a written instruction and
under the supervision of Level 2 or Level 3 personnel, equipment setup, data acquisition, data storage,
and report preparation can be performed by personnel qualified to a minimum of Level 1 in accordance
with ISO 9712 or equivalent in ultrasonic testing in the relevant industrial sector.
For data acquisition, the Level 1 personnel may be supported by an assistant technician.
In cases where the above minimum qualifications are not considered adequate, job-specific training
shall be carried out.
7.2 Test equipment
7.2.1 Ultrasonic instruments
The ultrasonic instrument used for the TOFD technique shallcomply with the requirements of
ISO 22232­1, where applicable.
The TOFD software shall not mask any problems such as loss of coupling, missing scan lines,
synchronization errors or electronic noise.
In addition, the requirements of ISO 16828 shall apply, taking into account the following:
a) the instrument shall be able to select an appropriate portion of the time base within which A­scans
are digitized;
b) it is recommended that a sampling rate of the A-scan of at least 6 times the nominal probe frequency
be used.
7.2.2 Ultrasonic probes
Probes used for the TOFD technique on welds shall comply with ISO 22232-2 and ISO 16828.
Adaptation of probes to curved scanning surfaces shall comply with ISO 17640.
A recommendation for the selection of probes is given in Table 2.
7.2.3 Scanning mechanisms
The requirements of ISO 16828 shall apply. To achieve consistency of the images (collected data),
guiding mechanisms may be used.
8 Preparation for testing
8.1 Volume to be tested
Testing shall be performed in accordance with ISO 16828. The purpose of the testing shall be defined by
specification. Based on this, the volume to be tested shall be determined.
© ISO 2020 – All rights reserved 5

---------------------- Page: 10 ----------------------
ISO/FDIS 10863:2020(E)

The volume to be tested is located between the probes. For testing levels A and B, the probes shall be
placed symmetrically about the weld centreline. For testing levels C and D, additional offset scans may
be required.
For manufacturing inspection, the examination volume is defined as the zone which includes weld
and parent material for at least 10 mm on each side of the weld or the width of the heat­affected zone,
whichever is greater. In all cases, the whole examination volume shall be covered.
Normally these tests are performed in accordance with recognized standards applying acceptance
levels for quality assurance. If fitness-for-purpose methods are applied, then corresponding acceptance
criteria shall be specified.
For in-service inspections, the examination volume may be targeted to specific areas of interest, e.g. the
inner third of the weld body. The acceptance criteria and minimum discontinuity size to be detected in
the area of interest shall be specified.
8.2 Setup of probes
The probes shall be set up to ensure adequate coverage and optimum conditions for the initiation
and detection of diffracted signals in the area of interest. For butt welds of simple geometry and with
narrow weld crowns at the opposite surface, th
...

NORME ISO
INTERNATIONALE 10863
Deuxième édition
2020-05
Essais non destructifs des
assemblages soudés — Contrôle
par ultrasons — Utilisation de la
technique de diffraction des temps de
vol (TOFD)
Non-destructive testing of welds — Ultrasonic testing — Use of time-
of-flight diffraction technique (TOFD)
Numéro de référence
ISO 10863:2020(F)
©
ISO 2020

---------------------- Page: 1 ----------------------
ISO 10863:2020(F)

DOCUMENT PROTÉGÉ PAR COPYRIGHT
© ISO 2020
Tous droits réservés. Sauf prescription différente ou nécessité dans le contexte de sa mise en œuvre, aucune partie de cette
publication ne peut être reproduite ni utilisée sous quelque forme que ce soit et par aucun procédé, électronique ou mécanique,
y compris la photocopie, ou la diffusion sur l’internet ou sur un intranet, sans autorisation écrite préalable. Une autorisation peut
être demandée à l’ISO à l’adresse ci-après ou au comité membre de l’ISO dans le pays du demandeur.
ISO copyright office
Case postale 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Genève
Tél.: +41 22 749 01 11
Fax: +41 22 749 09 47
E-mail: copyright@iso.org
Web: www.iso.org
Publié en Suisse
ii © ISO 2020 – Tous droits réservés

---------------------- Page: 2 ----------------------
ISO 10863:2020(F)

Sommaire Page
Avant-propos .v
1 Domaine d'application . 1
2 Références normatives . 1
3 Termes et définitions . 2
4 Remarques générales sur les possibilités de la technique . 3
5 Niveaux de contrôle . 3
6 Informations exigées avant contrôle . 4
6.1 Points à définir par la spécification . 4
6.2 Informations spécifiques exigées par l'opérateur avant contrôle . 4
6.3 Procédure ou instruction de contrôle écrite . 5
7 Exigences relatives au personnel chargé du contrôle et à l'appareillage d’essai .5
7.1 Qualification du personnel . 5
7.2 Appareillage de contrôle . 5
7.2.1 Instrument de contrôle par ultrasons . 5
7.2.2 Traducteurs ultrasonores . 6
7.2.3 Mécanismes de balayage . 6
8 Préparation avant contrôle . 6
8.1 Volume à contrôler . 6
8.2 Disposition des traducteurs . 6
8.3 Réglage du pas de balayage . 7
8.4 Considérations d'ordre géométrique . 7
8.5 Préparation des surfaces balayées . 8
8.6 Température . 8
8.7 Couplant . 8
8.8 Points de référence . 8
9 Contrôle du matériau de base . 8
10 Réglages de l'échelle de la base de temps et de la sensibilité. 9
10.1 Réglages . 9
10.1.1 Généralités . 9
10.1.2 Fenêtre de sélection . 9
10.1.3 Conversion temps-profondeur . 9
10.1.4 Réglages de sensibilité . 9
10.2 Vérification des réglages .10
10.3 Blocs de référence .10
10.3.1 Généralités .10
10.3.2 Matériau .10
10.3.3 Dimensions et forme .10
10.3.4 Réflecteurs de référence .11
11 Contrôle des soudures .11
12 Interprétation et analyse des images TOFD .11
12.1 Généralités .11
12.2 Évaluation de la qualité de l'image TOFD .12
12.3 Identification des indications TOFD pertinentes .12
12.4 Classification des indications TOFD pertinentes .12
12.4.1 Généralités .12
12.4.2 Indications TOFD relatives aux discontinuités débouchantes .13
12.4.3 Indications TOFD relatives aux discontinuités non débouchantes .13
12.4.4 Indications TOFD non classifiées .14
12.5 Détermination de l’emplacement .14
12.6 Définition et détermination de la longueur et de la hauteur .14
© ISO 2020 – Tous droits réservés iii

---------------------- Page: 3 ----------------------
ISO 10863:2020(F)

12.6.1 Généralités .14
12.6.2 Détermination de la longueur .15
12.6.3 Détermination de la hauteur .17
12.7 Évaluation par rapport aux critères d'acceptation .18
13 Rapport de contrôle .18
Annexe A (normative) Blocs de référence .20
Annexe B (informative) Exemples de balayages types .25
Bibliographie .38
iv © ISO 2020 – Tous droits réservés

---------------------- Page: 4 ----------------------
ISO 10863:2020(F)

Avant-propos
L'ISO (Organisation internationale de normalisation) est une fédération mondiale d'organismes
nationaux de normalisation (comités membres de l'ISO). L'élaboration des Normes internationales est
en général confiée aux comités techniques de l'ISO. Chaque comité membre intéressé par une étude
a le droit de faire partie du comité technique créé à cet effet. Les organisations internationales,
gouvernementales et non gouvernementales, en liaison avec l'ISO participent également aux travaux.
L'ISO collabore étroitement avec la Commission électrotechnique internationale (IEC) en ce qui
concerne la normalisation électrotechnique.
Les procédures utilisées pour élaborer le présent document et celles destinées à sa mise à jour sont
décrites dans les Directives ISO/IEC, Partie 1. Il convient, en particulier de prendre note des différents
critères d'approbation requis pour les différents types de documents ISO. Le présent document a été
rédigé conformément aux règles de rédaction données dans les Directives ISO/IEC, Partie 2 (voir www
.iso .org/ directives).
L'attention est attirée sur le fait que certains des éléments du présent document peuvent faire l'objet de
droits de propriété intellectuelle ou de droits analogues. L'ISO ne saurait être tenue pour responsable
de ne pas avoir identifié de tels droits de propriété et averti de leur existence. Les détails concernant
les références aux droits de propriété intellectuelle ou autres droits analogues identifiés lors de
l'élaboration du document sont indiqués dans l'Introduction et/ou dans la liste des déclarations de
brevets reçues par l'ISO (voir www .iso .org/ brevets).
Les appellations commerciales éventuellement mentionnées dans le présent document sont données
pour information, par souci de commodité, à l’intention des utilisateurs et ne sauraient constituer un
engagement.
Pour une explication de la nature volontaire des normes, la signification des termes et expressions
spécifiques de l'ISO liés à l'évaluation de la conformité, ou pour toute information au sujet de l'adhésion
de l'ISO aux principes de l’Organisation mondiale du commerce (OMC) concernant les obstacles
techniques au commerce (OTC), voir www .iso .org/ avant -propos.
Le présent document a été élaboré par le comité technique ISO/TC 44, Soudage et techniques connexes,
sous-comité SC 5, Essais et contrôle des soudures.
Cette deuxième édition annule et remplace la première édition (ISO 10863:2011), qui a fait l’objet d’une
révision technique.
Les principales modifications par rapport à l’édition précédente sont les suivantes:
— la mise à jour de l’ensemble du document en fonction de l’état de l’art; prise en compte des normes
de la série ISO 22232;
— la mise à jour de l’Article 3;
— l’adjonction de la Figure 1 à la Figure 6;
— la mise à jour de la Figure B.1 à la Figure 6;
Il convient que l’utilisateur adresse tout retour d’information ou toute question concernant le présent
document à l’organisme national de normalisation de son pays. Une liste exhaustive desdits organismes
se trouve à l’adresse www .iso .org/ members .html.
Les interprétations officielles des documents de l'ISO/TC 44, lorsqu'elles existent sont disponibles
depuis la page: https:// committee .iso .org/ sites/ tc44/ home/ interpretation .html.
© ISO 2020 – Tous droits réservés v

---------------------- Page: 5 ----------------------
NORME INTERNATIONALE ISO 10863:2020(F)
Essais non destructifs des assemblages soudés — Contrôle
par ultrasons — Utilisation de la technique de diffraction
des temps de vol (TOFD)
1 Domaine d'application
Le présent document spécifie l'application de la technique de diffraction des temps de vol (méthode TOFD,
time-of-flight diffraction) pour le contrôle par ultrasons semi-automatique ou entièrement automatique
des assemblages soudés par fusion de matériaux métalliques d'épaisseur minimale de 6 mm.
Cette technique s'applique aux joints soudés à pleine pénétration de géométrie simple sur plaques,
aux tubes et aux récipients, dans lesquels le métal de base et le métal fondu sont tous les deux
constitués d'acier au carbone faiblement allié. Dans le cas où son utilisation est spécifiée et qu'elle
s'avère appropriée, la méthode TOFD peut également être utilisée sur d'autres types de matériaux qui
présentent une atténuation ultrasonore faible (spécialement celle due à la dispersion).
Lorsque les paramètres ultrasonores dépendant du matériau sont spécifiés dans le présent document,
ils sont basés sur les aciers qui présentent une vitesse de propagation sonore de (5 920 ± 50) m/s pour
les ondes longitudinales et de (3 255 ± 30) m/s pour les ondes transversales. Il est nécessaire de prendre
cela en compte lors du contrôle de matériaux ayant des vitesses de propagation différentes.
Le présent document fait référence à l’ISO 16828 et fournit des lignes directrices sur les possibilités et
les limitations spécifiques de la méthode TOFD pour la détection, la localisation, le dimensionnement
et la caractérisation des discontinuités dans les joints soudés par fusion. La méthode TOFD peut être
utilisée de manière autonome ou en combinaison avec d'autres méthodes ou techniques d'essais non
destructifs (END), pour le contrôle de fabrication et pour le contrôle en cours de service.
Le présent document spécifie quatre niveaux d'examen (A, B, C, D) conformément à l'ISO 17635,
correspondant à des niveaux croissants de fiabilité de contrôle. Des lignes directrices relatives au choix
des niveaux d'examen sont données.
Le présent document permet l'évaluation des indications TOFD à des fins d'acceptation. Cette évaluation
est basée sur l'appréciation des signaux ultrasonores transmis, réfléchis ou diffractés dans une image
produite par la méthode TOFD.
Le présent document ne comporte pas de niveaux d'acceptation pour les discontinuités.
2 Références normatives
Les documents suivants sont cités dans le texte de sorte qu’ils constituent, pour tout ou partie de leur
contenu, des exigences du présent document. Pour les références datées, seule l’édition citée s’applique.
Pour les références non datées, la dernière édition du document de référence s'applique (y compris les
éventuels amendements).
ISO 5577, Essais non destructifs — Contrôle par ultrasons — Vocabulaire
ISO 9712, Essais non destructifs — Qualification et certification du personnel END
ISO 16828, Essais non destructifs — Contrôle par ultrasons — Technique de diffraction du temps de vol
utilisée comme méthode de détection et de dimensionnement des discontinuités
ISO 17640, Essais non destructifs des assemblages soudés — Contrôle par ultrasons — Techniques, niveaux
d'essai et évaluation
© ISO 2020 – Tous droits réservés 1

---------------------- Page: 6 ----------------------
ISO 10863:2020(F)

1)
ISO 22232-1 , Essais non destructifs — Caractérisation et vérification de l’appareillage de contrôle par
ultrasons — Partie 1: Appareils
2)
ISO 22232-2 , Essais non destructifs — Caractérisation et vérification de l’appareillage de contrôle par
ultrasons — Partie 1: Traducteurs
3 Termes et définitions
Pour les besoins du présent document, les termes et définitions de l'ISO 5577 ainsi que les suivants
s'appliquent.
L’ISO et l’IEC tiennent à jour des bases de données terminologiques destinées à être utilisées en
normalisation, consultables aux adresses suivantes:
— ISO Online browsing platform: disponible à l’adresse https:// www .iso .org/ obp
— IEC Electropedia: disponible à l’adresse http:// www .electropedia .org/
3.1
image de diffraction des temps de vol
image TOFD
image bidimensionnelle, construite à l'aide de deux représentations de type A adjacentes, le dispositif de
diffraction des temps de vol (3.3) étant déplacé
Note 1 à l'article: L'amplitude du signal des représentations de type A est traditionnellement représentée par
différentes valeurs de l'échelle des gris.
3.2
indication de diffraction des temps de vol
indication TOFD
figure type ou perturbation dans l'image de diffraction des temps de vol (3.1), qui peut requérir une
évaluation ultérieure
3.3
dispositif de diffraction des temps de vol
dispositif TOFD
ensemble de traducteurs défini par les caractéristiques des traducteurs (par exemple la fréquence, les
dimensions de l'élément du traducteur, l'angle de faisceau, le type d'onde) et la distance entre axes des
traducteurs (3.6)
Note 1 à l'article: Le terme abrégé TOFD est dérivé de l'anglais time-of-flight diffraction.
3.4
point d'intersection de faisceau
point d'intersection des deux axes principaux des faisceaux
3.5
onde latérale
onde longitudinale parcourant le chemin le plus court du traducteur émetteur au traducteur récepteur
3.6
distance entre axes des traducteurs
PCS
distance entre les points d'émergence des deux traducteurs
Note 1 à l'article: La PCS de deux traducteurs situés sur une surface courbe est la ligne droite, séparation
géométrique entre les points d'émergence des deux traducteurs et non la distance mesurée le long de la surface.
1) En préparation. (Préparation au moment de la publication: ISO/FDIS 22232-1.)
2) En préparation. (Préparation au moment de la publication: ISO/DIS 22232-2.)
2 © ISO 2020 – Tous droits réservés

---------------------- Page: 7 ----------------------
ISO 10863:2020(F)

Note 2 à l'article: Le terme abrégé PCS est dérivé de l'anglais probe centre separation.
3.7
balayage déporté
balayage parallèle à l'axe de la soudure, au cours duquel le point d'intersection de faisceau (3.4) ne se
situe pas sur la ligne médiane de la soudure
4 Remarques générales sur les possibilités de la technique
Les principes généraux de la technique TOFD sont décrits dans l'ISO 16828. En ce qui concerne le
contrôle des joints soudés par fusion, certaines possibilités et limites de la technique doivent être prises
en compte.
La technique TOFD est une technique ultrasonore de production d'image qui présente des possibilités
relatives à la détection, la localisation et au dimensionnement. Dans une certaine mesure, la
caractérisation des discontinuités situées dans le matériau fondu ainsi que dans le matériau de base
adjacent est également possible.
Par comparaison avec les techniques basées sur la réflexion des ondes, la technique TOFD, qui est basée
à la fois sur la diffraction et sur la réflexion, est moins sensible à l'orientation de la discontinuité. Les
discontinuités orientées perpendiculairement à la surface et à des angles d'inclinaison intermédiaires
peuvent être détectées, tout comme les discontinuités situées dans les zones de liaison des soudures.
Dans certaines circonstances (par exemple: épaisseur, préparation de la soudure, objet du contrôle),
plus d'un seul dispositif TOFD est exigé.
Une image TOFD type est repérée dans un système de coordonnées linéaires avec le temps (axe vertical)
et le mouvement des traducteurs (axe horizontal) comme variables. Du fait de la configuration en V des
parcours ultrasonores, la position d'une possible discontinuité n'est, de ce fait, pas linéaire. Le contrôle
TOFD doit être réalisé de façon correcte et cohérente, de sorte que des images valides soient produites
afin de pouvoir être évaluées correctement. Par exemple, les erreurs provenant des pertes de couplage
et de l'acquisition de données doivent être évitées, voir 12.2.
L'interprétation des images TOFD exige qualification et expérience de la part des opérateurs. Quelques
images types TOFD de discontinuités dans les joints soudés par fusion sont illustrées à l'Annexe B.
La capacité de détection des discontinuités proches ou liées à la surface balayée ou à la surface
opposée est réduite. Cela doit être pris en compte particulièrement dans le cas des aciers sensibles à la
fissuration ou dans le cas des contrôles en service. Dans les cas exigeant une couverture totale de ces
zones, des dispositions complémentaires doivent être prises. Par exemple la méthode TOFD peut être
accompagnée par d'autres méthodes ou techniques END.
Les signaux diffractés provenant des discontinuités des soudures peuvent présenter des réponses
d'amplitude faible. Les effets de dispersion provoqués par les grains des matériaux à gros grains
peuvent affecter la détection et l'évaluation de telles réponses; cela doit être pris en compte à chaque
contrôle de matériaux.
5 Niveaux de contrôle
Le présent document spécifie quatre niveaux de contrôle (A, B, C et D, voir Tableau 1). Du niveau de
contrôle A au niveau de contrôle C, une fiabilité croissante est obtenue.
© ISO 2020 – Tous droits réservés 3

---------------------- Page: 8 ----------------------
ISO 10863:2020(F)

Tableau 1 — Niveaux de contrôle
Bloc de référence Bloc de référence
Procédures
Niveau Dispositif pour la vérification pour les réglages Balayage
de contrôle
d'essai TOFD du dispositif TOFD de sensibilité déporté
écrites
(voir 8.2) (voir 10.1.4)
Selon le Le présent
A Non Non Non
Tableau 2 document
Selon le Le présent
B Non Oui Non
Tableau 2 document
Selon le
a
C Oui Oui Oui
Tableau 2
Comme défini
a
D par la Oui Oui Oui
spécification
a
La nécessité, le nombre et la position des balayages déportés doivent être déterminés.
Dans le cas où les niveaux d'acceptation spécifiés exigent la détection d'une certaine taille de
discontinuité sur les deux faces ou sur une seule face de la soudure (voir Article 4), l'utilisation de
techniques ou de méthodes se situant en dehors du domaine d’application du présent document peut
être nécessaire.
Dans le cas de contrôles de fabrication (voir également l'ISO 17635), tous les niveaux d'examen sont
applicables. Le niveau A n'est applicable que pour des épaisseurs de paroi allant jusqu'à 50 mm. Dans le
cas des contrôles en service, seul le niveau D doit être appliqué.
6 Informations exigées avant contrôle
6.1 Points à définir par la spécification
Des informations relatives aux points suivants sont exigées:
a) but et étendue du contrôle suivant la méthode TOFD (voir l'Article 5 et l'Article 8);
b) niveaux d'examen (voir l'Article 5), par exemple:
1) si des procédures de contrôle écrites sont exigées ou non,
2) si des blocs de référence sont exigés ou non;
c) spécification des blocs de référence, si exigé (voir 10.3);
d) étape de fabrication ou étape opérationnelle à laquelle le contrôle doit être effectué;
e) exigences relatives aux conditions de température, aux conditions d'accessibilité et aux conditions
de surface (voir l'Article 8);
f) exigences relatives au rapport de contrôle (voir l'Article 13);
g) critères d'acceptation;
h) qualification du personnel (voir 7.1).
6.2 Informations spécifiques exigées par l'opérateur avant contrôle
Avant de procéder à toute opération de contrôle sur un joint soudé, l'opérateur doit avoir accès à toutes
les informations spécifiées en 6.1 ainsi qu'aux informations additionnelles suivantes:
a) procédures ou instructions de contrôle écrites (voir 6.3), si exigé;
4 © ISO 2020 – Tous droits réservés

---------------------- Page: 9 ----------------------
ISO 10863:2020(F)

b) type(s) de matériau de base et forme du produit (c'est-à-dire moulé, forgé, laminé);
c) préparation et dimensions du joint;
d) mode opératoire de soudage ou informations pertinentes relatives au procédé de soudage;
e) situation du contrôle dans le temps par rapport à tout traitement thermique après soudage;
f) résultats des essais et contrôles effectués sur le métal de base avant et/ou après soudage;
g) type et morphologie de la discontinuité à détecter.
6.3 Procédure ou instruction de contrôle écrite
Dans le cas des niveaux d'examen A et B, le présent document répond au besoin de disposer d'une
procédure de contrôle écrite.
Dans le cas des niveaux d'examen C et D, ou lorsque les techniques décrites dans le présent document ne
sont pas applicables au joint soudé à contrôler, des procédures de contrôle écrites spécifiques doivent
être utilisées.
Lorsque les données sont recueillies par du personnel qualifié au Niveau 1 conformément à l’ISO 9712,
une instruction de contrôle écrite doit être préparée. L'instruction de contrôle écrite doit contenir au
minimum les informations énumérées à l'Article 13.
7 Exigences relatives au personnel chargé du contrôle et à l'appareillage d’essai
7.1 Qualification du personnel
En plus des connaissances générales relatives aux contrôles par ultrasons, tout le personnel doit être
compétent en matière de contrôle par la méthode TOFD. Des documents prouvant leurs compétences
(niveau de formation et d'expérience) sont exigés.
L’établissement d'instructions de contrôle écrites, l'analyse finale hors-ligne des données et l'acceptation
du rapport de contrôle doivent être effectuées par un personnel qualifié disposant au minimum de
compétences de Niveau 2 conformément à l'ISO 9712, ou d’un niveau équivalent en matière de contrôle
par ultrasons dans le secteur industriel concerné. Conformément à une instruction écrite et sous la
surveillance de personnel disposant de compétences de Niveau 2 ou de Niveau 3, la mise en œuvre
de l'appareillage, l'acquisition des données, le stockage des données et la préparation du rapport de
contrôle peuvent être effectués par du personnel qualifié au minimum au Niveau 1 conformément à
l'ISO 9712, ou à un niveau équivalent en matière de contrôle par ultrasons dans le secteur industriel
concerné.
En ce qui concerne l'acquisition de données, le personnel de Niveau 1 peut être assisté par un technicien.
Dans les cas où les qualifications minimales ne sont pas considérées comme adéquates, une formation
spécifique à la tâche à accomplir doit être effectuée.
7.2 Appareillage de contrôle
7.2.1 Instrument de contrôle par ultrasons
L'instrument de contrôle par ultrasons utilisé pour la méthode TOFD doit, le cas échéant, être conforme
aux exigences de l'ISO 22232-1.
Le logiciel d'affichage des images TOFD doit permettre la visualisation de tout problème: pertes
de couplage, lignes de balayage manquantes, défaut de synchronisation, présence de parasitages
électr
...

Questions, Comments and Discussion

Ask us and Technical Secretary will try to provide an answer. You can facilitate discussion about the standard in here.

This May Also Interest You

ISO
ISO 5173:2023(Main)
Destructive tests on welds in metallic materials — Bend tests

This document specifies a method for making transverse root, face and side bend tests on test specimens taken from butt welds, butt welds with cladding (subdivided into welds in clad plates and clad welds) and cladding without butt welds, in order to reveal imperfections on or near the surface of the test specimen which is under tension during bend testing and/or assess ductility. It also gives the dimensions of the test specimen. In addition, this document specifies methods to be used instead of transverse bend tests with a former for welded joints when base materials, heat affected zones and/or weld metal have a significant difference in their physical and mechanical properties in relation to bending. This document applies to metallic materials in all forms of product with welded joints made by any welding process.

  • Standard
    24 pages
    English language
    sale 15% off
  • Standard
    24 pages
    French language
    sale 15% off
ISO
ISO 17636-2:2022(Main)
Non-destructive testing of welds — Radiographic testing — Part 2: X- and gamma-ray techniques with digital detectors

This document specifies techniques of digital radiography with the object of enabling satisfactory and repeatable results. The techniques are based on generally recognized practice and fundamental theory of the subject. This document applies to the digital radiographic testing of fusion welded joints in metallic materials. It applies to the joints of plates and pipes. Besides its conventional meaning, “pipe”, as used in this document, covers other cylindrical bodies such as tubes, penstocks, boiler drums and pressure vessels. This document specifies the requirements for digital radiographic X- and gamma-ray testing by either computed radiography (CR) or radiography with digital detector arrays (DDAs) of the welded joints of metallic plates and tubes for the detection of imperfections. It includes manual and automated inspection with DDAs. Digital detectors provide a digital grey value image which can be viewed and evaluated using a computer (Annex E). This document specifies the recommended procedure for detector selection and radiographic practice. Selection of computer, software, monitor, printer and viewing conditions are important, but are not the main focus of this document. The procedure specified in this document provides the minimum requirements for radiographic practice which permits exposure and acquisition of digital radiographs with equivalent sensitivity for the detection of imperfections as film radiography (specified in ISO 17636-1). This document does not specify acceptance levels for any of the indications found on the digital radiographs. ISO 10675 provides information on acceptance levels for weld inspection. If contracting parties apply lower test criteria, it is possible that the quality achieved will be significantly lower than when this document is strictly applied.

  • Standard
    64 pages
    English language
    sale 15% off
  • Standard
    64 pages
    French language
    sale 15% off
ISO
ISO 17636-1:2022(Main)
Non-destructive testing of welds — Radiographic testing — Part 1: X- and gamma-ray techniques with film

This document specifies techniques of radiographic testing of fusion-welded joints in metallic materials using industrial radiographic film techniques with the object of enabling satisfactory and repeatable results. The techniques are based on generally recognized practice and fundamental theory of the subject. It applies to the joints of plates and pipes in metallic materials. Besides its conventional meaning, “pipe” as used in this document covers other cylindrical bodies, such as tubes, penstocks, boiler drums and pressure vessels. This document does not specify acceptance levels for any of the indications found on the radiographs. The ISO 10675 series provides information on acceptance levels for weld evaluation. If contracting parties apply lower test criteria, it is possible that the quality achieved will be significantly lower than when this document is strictly applied.

  • Standard
    36 pages
    English language
    sale 15% off
  • Standard
    38 pages
    French language
    sale 15% off
ISO
ISO 4136:2022(Main)
Destructive tests on welds in metallic materials — Transverse tensile test

This document specifies the sizes of test specimen and the procedure for carrying out transverse tensile tests in order to determine the tensile strength and the location of fracture of a welded butt joint. This document applies to metallic materials in all forms of product with joints made by any welded butt joint.

  • Standard
    10 pages
    English language
    sale 15% off
  • Standard
    10 pages
    French language
    sale 15% off
  • Draft
    9 pages
    English language
    sale 15% off
ISO
ISO 9016:2022(Main)
Destructive tests on welds in metallic materials — Impact tests — Test specimen location, notch orientation and examination

This document specifies the method to be used when describing test specimen location and notch orientation for the testing and reporting of impact tests on welded butt joints. This document applies to impact tests on metallic materials in all forms of product made by any fusion and pressure welding process. It is used in addition to the ISO 148 series and includes test specimen denomination and additional reporting requirements.

  • Standard
    8 pages
    English language
    sale 15% off
  • Standard
    8 pages
    French language
    sale 15% off
ISO
ISO 17639:2022(Main)
Destructive tests on welds in metallic materials — Macroscopic and microscopic examination of welds

This document gives recommendations for specimen preparation, test procedures and their main objectives for macroscopic and microscopic examination.

  • Standard
    9 pages
    English language
    sale 15% off
  • Standard
    10 pages
    French language
    sale 15% off
  • Draft
    9 pages
    English language
    sale 15% off
ISO
ISO 4761:2022(Main)
Non-destructive testing of welds — Phased array ultrasonic testing (UT-PA) for thin-walled steel components — Acceptance levels

This document specifies acceptance levels for the phased array ultrasonic testing technique (UT-PA) of full-penetration welds in low-alloy and/or fine-grained steels in the wall thickness range from 3,2 mm to 8 mm which correspond to the quality levels of ISO 5817. These acceptance levels are applicable to indications detected according to ISO 20601.

  • Standard
    8 pages
    English language
    sale 15% off
  • Standard
    10 pages
    French language
    sale 15% off
  • Draft
    8 pages
    English language
    sale 15% off
ISO
ISO 10675-1:2021(Main)
Non-destructive testing of welds — Acceptance levels for radiographic testing — Part 1: Steel, nickel, titanium and their alloys

This document specifies acceptance levels for indications from imperfections in butt welds of steel, nickel, titanium and their alloys detected by radiographic testing. If agreed, the acceptance levels can be applied to other types of welds (such as fillet welds, etc.) or materials. The acceptance levels can be related to welding standards, application standards, specifications or codes. This document assumes that the radiographic testing has been carried out in accordance with ISO 17636‑1 for RT-F (F = film) or ISO 17636‑2 for RT-S (S = radioscopy) and RT-D (D = digital detectors).

  • Standard
    14 pages
    English language
    sale 15% off
  • Standard
    14 pages
    French language
    sale 15% off
  • Draft
    13 pages
    English language
    sale 15% off
ISO
ISO 10675-2:2021(Main)
Non-destructive testing of welds — Acceptance levels for radiographic testing — Part 2: Aluminium and its alloys

This document specifies acceptance levels for indications from imperfections in aluminium butt welds detected by radiographic testing. If agreed, the acceptance levels can be applied to other types of welds (such as fillet welds etc.) or materials. The acceptance levels can be related to welding standards, application standards, specifications or codes. This document assumes that the radiographic testing has been carried out in accordance with ISO 17636‑1 for RT-F (F = film) or ISO 17636‑2 for RT-S (S = radioscopy) and RT-D (D = digital detectors).

  • Standard
    14 pages
    English language
    sale 15% off
  • Standard
    14 pages
    English language
    sale 15% off
  • Standard
    14 pages
    French language
    sale 15% off
ISO
ISO 13588:2019(Main)
Non-destructive testing of welds — Ultrasonic testing — Use of automated phased array technology

This document specifies the application of the phased array technology for the semi- or fully automated ultrasonic testing of fusion-welded joints in metallic materials of minimum thickness 6 mm. It applies to full penetration welded joints of simple geometry in plates, pipes, and vessels, where both the weld and the parent material are low-alloy and/or fine grained steel. For the testing of welds in other steel materials this document gives guidance. For coarse-grained or austenitic steels, ISO 22825 applies in addition to this document. This document provides guidance on the specific capabilities and limitations of the phased array technology for the detection, location, sizing and characterization of discontinuities in fusion-welded joints. Phased array technology can be used as a stand-alone technology or in combination with other non-destructive testing (NDT) methods or techniques, for manufacturing inspection, pre-service and for in-service inspection. This document specifies four testing levels, each corresponding to a different probability of detection of imperfections. This document permits assessment of discontinuities for acceptance purposes based either on amplitude (equivalent reflector size) and length, or on height and length. This document does not include acceptance levels for discontinuities. This document is not applicable for automated testing of welds during the production of steel products covered by ISO 10893-8, ISO 10893-11 and ISO 3183.

  • Standard
    24 pages
    English language
    sale 15% off
  • Standard
    25 pages
    French language
    sale 15% off