Steel castings — Ultrasonic examination — Part 1: Steel castings for general purposes

ISO 4992-1:2006 specifies the requirements for the ultrasonic examination of steel castings (with ferritic structure) for general purposes, and the methods for determining internal discontinuities by the pulse-echo technique. ISO 4992-1:2006 applies to the ultrasonic examination of steel castings which have usually received a grain-refining heat treatment and which have wall thicknesses up to and including 600 mm. For greater wall thicknesses, special agreements apply with respect to the test procedure and recording levels. ISO 4992-1:2006 does not apply to austenitic steels and joint welds.

Pièces moulées en acier — Contrôle aux ultrasons — Partie 1: Pièces moulées en acier pour usages généraux

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Status
Withdrawn
Publication Date
16-Feb-2006
Withdrawal Date
16-Feb-2006
Current Stage
9599 - Withdrawal of International Standard
Completion Date
15-Mar-2020
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ISO 4992-1:2006 - Steel castings -- Ultrasonic examination
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INTERNATIONAL ISO
STANDARD 4992-1
First edition
2006-02-15

Steel castings — Ultrasonic
examination —
Part 1:
Steel castings for general purposes
Pièces moulées en acier — Contrôle aux ultrasons —
Partie 1: Pièces moulées en acier pour usages généraux



Reference number
ISO 4992-1:2006(E)
©
ISO 2006

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ISO 4992-1:2006(E)
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ii © ISO 2006 – All rights reserved

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ISO 4992-1:2006(E)
Contents Page
Foreword. iv
1 Scope . 1
2 Normative references . 1
3 Terms and definitions. 2
4 Requirements . 2
4.1 Order information . 2
4.2 Extent of examination. 3
4.3 Maximum permissible size of discontinuities . 3
4.4 Personnel qualification . 3
4.5 Wall-section zones. 4
4.6 Severity levels. 4
5 Examination. 4
5.1 Principles. 4
5.2 Material . 4
5.3 Equipment and coupling medium. 5
5.4 Preparation of casting surfaces for examination . 5
5.5 Examination procedure. 6
5.6 Examination report . 9
Annex A (informative) Sound-beam diameters . 16
Annex B (informative) Types of indications . 18
Bibliography . 30

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ISO 4992-1:2006(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.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
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.
ISO 4992-1 was prepared by Technical Committee ISO/TC 17, Steel, Subcommittee SC 11, Steel castings.
ISO 4992 consists of the following parts, under the general title Steel castings — Ultrasonic examination:
⎯ Part 1: Steel castings for general purposes
⎯ Part 2: Steel castings for highly stressed components

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INTERNATIONAL STANDARD ISO 4992-1:2006(E)

Steel castings — Ultrasonic examination —
Part 1:
Steel castings for general purposes
1 Scope
This part of ISO 4992 specifies the requirements for the ultrasonic examination of steel castings (with ferritic
structure) for general purposes, and the methods for determining internal discontinuities by the pulse-echo
technique.
This part of ISO 4992 applies to the ultrasonic examination of steel castings which have usually received a
grain-refining heat treatment and which have wall thicknesses up to and including 600 mm. For greater wall
thicknesses, special agreements apply with respect to the test procedure and recording levels.
This part of ISO 4992 does not apply to austenitic steels and joint welds.
2 Normative references
The following referenced documents are indispensable for the application 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 inspection — Vocabulary
ISO 7963, Non-destructive testing — Ultrasonic testing — Specification for calibration block No. 2
EN 583-1, Non-destructive testing — Ultrasonic examination — Part 1: General principles
EN 583-2, Non-destructive testing — Ultrasonic examination — Part 2: Sensitivity and range setting
EN 583-5, Non-destructive testing — Ultrasonic examination — Part 5: Characterization and sizing of
discontinuities
EN 1330-4, Non-destructive testing — Terminology — Part 4: Terms used in ultrasonic testing
EN 12223, Non-destructive testing — Ultrasonic examination — Specification for calibration block No. 1
EN 12668-1, Non-destructive testing — Characterization and verification of ultrasonic examination
equipment — Part 1: Instruments
EN 12668-2, Non-destructive testing — Characterization and verification of ultrasonic examination
equipment — Part 2: Probes
EN 12668-3, Non-destructive testing — Characterization and verification of ultrasonic examination
equipment — Part 3: Combined equipment
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ISO 4992-1:2006(E)
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 5577, EN 583-1, EN 583-2,
EN 583-5, and EN 1330-4, and the following, apply.
3.1
reference discontinuity echo size
smallest indication to be recorded during the assessment phase of an ultrasonic examination, usually
expressed as an equivalent flat-bottomed hole diameter
3.2
point discontinuity
discontinuity, the dimensions of which are smaller than or equal to the sound-beam width
NOTE Dimensions in this part of ISO 4992 relate to length, width and/or dimension in the through-wall direction.
3.3
complex discontinuity
discontinuity, the dimensions of which are larger than the sound-beam width
NOTE Dimensions in this part of ISO 4992 relate to length, width and/or dimension in the through-wall direction.
3.4
planar discontinuity
discontinuity having two measurable dimensions
3.5
volumetric discontinuity
discontinuity having three measurable dimensions
3.6
special rim zone
outer rim-zone part with special requirements
NOTE Examples of special requirements are machined surfaces, higher stresses and sealing surfaces.
3.7
production welding
any welding carried out during manufacturing before final delivery to the purchaser
3.7.1
joint welding
production welding used to assemble components together to obtain an integral unit
3.7.2
finishing welding
production welding carried out in order to ensure the agreed quality of the casting
4 Requirements
4.1 Order information
The following information shall be available at the time of enquiry and order (see also EN 583-1):
⎯ the areas of the casting and the number or percentage of castings to which the ultrasonic examination
requirements apply (examination volume, extent of examination);
⎯ the severity level to be applied to the various zones or areas of the casting (acceptance criteria);
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ISO 4992-1:2006(E)
⎯ requirements for a written examination procedure;
⎯ whether there are any additional requirements for the examination procedure, see also 5.5.1.
4.2 Extent of examination
The casting shall be examined so that the agreed areas are totally covered (insofar as this is possible from the
shape of the casting) by the use of the best applicable examination technique.
For wall thicknesses greater than 600 mm, agreement shall be made between the parties concerned on the
examination procedure and also on the recording and acceptance levels.
4.3 Maximum permissible size of discontinuities
4.3.1 Limits of acceptance for planar discontinuities mainly orientated perpendicular to the surface
The limits of acceptance for planar discontinuities are given in Figure 1.
Indications with measurable dimensions are not permissible as severity level 1.
The largest dimension in the through-wall direction shall not exceed 10 % of wall thickness, except indications
with a measurable length u 10 mm. Such indications shall not exceed a dimension in the through-wall
direction of 25 % of wall thickness or 20 mm.
The greatest distance between indications, as a criterion for evaluation as a single indication or indication area
perpendicular or lateral to the surface, shall be 10 mm.
For an area with a measurable length and non-measurable dimension in the through-wall direction, this
non-measurable dimension shall be taken as 3 mm and the area shall be calculated as follows:
A = 3 × L (1)
where
⎯ A is the area of indication, in square millimetres;
⎯ 3 is the width taken, in millimetres;
⎯ L is the measurable length, in millimetres.
4.3.2 Limits of acceptance for volumetric discontinuities
The limits of acceptance for volumetric discontinuities are given in Table 1. Any discontinuity exceeding one of
the criteria shall be considered as unacceptable.
4.3.3 Maximum permissible discontinuities in the case of radiographic examination of the casting
carried out as a supplement to ultrasonic examination
Unless otherwise agreed by the time of enquiry and order, when, after conducting the radiographic and the
ultrasonic examination in combination, it has been demonstrated that a discontinuity is situated in the core
zone, this additional information makes the discontinuity acceptable at one level less severe, e.g. severity
level 3 instead of 2 for radiographic examination, see EN 1559-2.
4.4 Personnel qualification
It is assumed that ultrasonic examination is performed by qualified and capable personnel. In order to prove
this qualification, it is recommended to certify personnel according to ISO 9712 or EN 473.
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ISO 4992-1:2006(E)
4.5 Wall-section zones
The wall section shall be divided into zones as shown in Figure 2. These sections relate to the dimensions of
the casting ready for assembly (finish machined).
4.6 Severity levels
If the purchaser specifies different severity levels in different areas of the same casting, all of these areas shall
be clearly identified on the purchaser's drawing and shall include:
⎯ all necessary dimensions for accurate location of zones;
⎯ the full extent of all weld preparations and the thickness of any special rim zone.
Severity level 1 is only applied to weld preparations and special rim zones.
Unless other requirements have been agreed by the time of acceptance of the order, for finishing welds, the
requirements for the parent metal shall apply.
5 Examination
5.1 Principles
The principles of ultrasonic examination given in EN 583-1, EN 583-2 and EN 583-5 shall apply.
5.2 Material
The suitability of material for ultrasonic examination is assessed by comparison with the echo height of a
reference reflector (usually the first backwall echo) and the noise signal. This assessment shall be carried out
on selected casting areas which are representative of the surface finish and of the total thickness range. The
assessment areas shall have parallel surfaces.
The reference echo height according to Table 2 shall be at least 6 dB above the noise signal.
If the echo height of this smallest detectable flat-bottomed or equivalent side-drilled hole diameter at the end
of the test range to be assessed is less than 6 dB above the grass level, then the ultrasonic testability is
reduced. In this case, the flat-bottomed or side-drilled hole diameter which can be detected with a signal-noise
ratio of at least 6 dB shall be noted in the test report, and the additional procedure shall be agreed between
the manufacturer and the purchaser.
NOTE For the definition of an adequate flat-bottomed hole size, the distance gain size system (DGS) or a test block
of identical material, heat treatment condition and section thickness containing flat-bottomed holes with a diameter
according to Table 2 or equivalent side-drilled holes, can be used. The following formula is used for converting the flat-
bottomed hole diameter into the side-drilled hole diameter:
4
4,935× D
FBH
D = (2)
Q
2
λ × s
where
D is the side-drilled hole diameter, in millimetres;
Q
D is the flat-bottomed hole diameter, in millimetres;
FBH
λ is the wave length, in millimetres;
s is the path length, in millimetres.
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ISO 4992-1:2006(E)
The formula is applicable for D W 2λ and s W 5 × near-field length and is only defined for single element
Q
probes.
5.3 Equipment and coupling medium
5.3.1 Ultrasonic instrument
The ultrasonic instrument shall meet the requirements given in EN 12668-1 and shall have the following
characteristics:
⎯ range setting, from at least 10 mm to 2 m continuously selectable, for longitudinal and transverse waves
transmitted in steel;
⎯ gain, adjustable in 2 dB maximum steps over a range of at least 80 dB with a measuring accuracy of
1 dB;
⎯ time-base and vertical linearities less than 5 % of the adjustment range of the screen;
⎯ suitability, at least for nominal frequencies from 1 MHz up to and including 5 MHz, in the pulse-echo
technique with single-crystal and twin-crystal probes.
5.3.2 Probes and transducer frequencies
The probes and transducer frequencies shall be as given in EN 12668-2 and EN 12668-3 with the following
exceptions:
⎯ nominal frequencies shall be in the range 1 MHz to 5 MHz;
⎯ for oblique incidence, angle probes with angles between 35° and 70° shall be used.
NOTE Normal or angle probes can be used for the examination of steel castings. The type of probe used depends on
the geometry of the casting and the type of discontinuity to be detected.
For examining zones close to the surface, twin-crystal probes (normal or angle) should be preferred.
5.3.3 Checking the ultrasonic examination equipment
The ultrasonic examination equipment shall be checked regularly by the operator in accordance with
EN 12668-3.
5.3.4 Coupling medium
A coupling medium in accordance with EN 583-1 shall be used. The coupling medium shall wet the
examination area to ensure satisfactory sound transmission. The same coupling medium shall be used for
calibration and all subsequent examination operations.
NOTE The sound transmission can be checked by ensuring one or more stable backwall echoes in areas with
parallel surfaces.
5.4 Preparation of casting surfaces for examination
For the preparation of casting surfaces for examination, see EN 583-1.
The casting surfaces to be examined shall be such that satisfactory coupling with the probe can be achieved.
In the case of single-crystal probes, satisfactory coupling can be achieved if the condition of the surfaces to be
examined corresponds at least to the limit comparator 4 S1 or 4 S2 according to EN 1370.
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ISO 4992-1:2006(E)
The roughness of any machined surface to be examined shall be R u 12,5 µm.
a
For special techniques, higher surface qualities such as 2 S1, 2 S2 (see EN 1370) and R u 6,3 µm can be
a
necessary.
5.5 Examination procedure
5.5.1 General
Because the choice of both the direction of incidence and suitable probes largely depends on the shape of the
casting, or on the possible casting discontinuities or on the possible discontinuities from finishing welding, the
applicable examination procedure shall be specified by the manufacturer of the casting. In special cases,
specific agreements can be made.
If possible, the areas to be tested shall be examined from both sides. When testing from one side only, short-
range resolving probes shall be used additionally for the detection of discontinuities close to the surface.
Testing with twin-crystal probes is only adequate for wall thicknesses up to 50 mm.
Additionally, when not otherwise agreed between the purchaser and the manufacturer, for all castings, twin-
crystal normal and/or angle probes shall be used to examine the following areas up to a depth of 50 mm:
⎯ critical areas, e.g. fillets, changes in cross-section, areas with external chills;
⎯ finishing welds;
⎯ weld preparation areas, as specified in the order;
⎯ special rim zones, as specified in the order, critical for the performance of the casting.
Finishing welds which are deeper than 50 mm shall be subject to supplementary examination with other
suitable angle probes.
For angle probes with angles over 60°, the sound beam path shall not exceed 150 mm.
Complete coverage of all areas specified for examination shall be conducted by carrying out systematically
overlapping scans.
The scanning rate shall not exceed 150 mm/s.
5.5.2 Range setting
Range setting shall be carried out in accordance with EN 583-2 on the screen of the test instrument, using
normal or angle probes in accordance with one of the three options given below:
⎯ with the calibration block No. 1 in accordance with EN 12223, or No. 2 in accordance with ISO 7963;
⎯ with an alternative calibration block made of a material exhibiting similar acoustic properties to those of
the material to be examined;
⎯ on the casting itself when using normal probes. In this case, the casting to be tested shall have parallel
surfaces, the distance between which shall be measured.
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ISO 4992-1:2006(E)
5.5.3 Sensitivity setting
5.5.3.1 General
Sensitivity setting shall be carried out after range setting (see 5.5.2) in accordance with EN 583-2. One of the
two following techniques shall be used:
⎯ Distance-amplitude correction curve technique (DAC)
The distance-amplitude correction curve technique makes use of the echo-heights of a series of identical
reflectors (flat-bottomed holes FBH or side-drilled holes SDH), each reflector having a different
sound-beam path.
NOTE A frequency of 2 MHz and a diameter of 6 mm for the flat-bottomed
...

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