Micrographic examination of the non-metallic inclusion content of steels using standard pictures

This draft European Standard defines a method of microscopic non-metallic endogenous inclusion assessment using picture charts.
The method does not apply to particles of a length or diameter less than 3,0 µm or a width smaller than 2,0 µm. If defined by a product standard or agreement between the involved parties for certain special products, inclusions with a width below 2,0 µm can be evaluated by length alone.Inclusions with dimensions exceeding the upper limits in Table 2 are evaluated as belonging to the maximum class and noted separately with their true dimensions (see 7.5.6).
It is assumed, if particles are elongated or if there are stringers of particles, that they are parallel to each other. Other arrangements are not covered by this draft standard. This draft European Standard applies to samples with a microscopic precipitation approaching random distribution.
From the data of measurements obtained by this method, evaluation according to other standards can be established.
This draft European Standard does not apply to free cutting steels.
NOTE   The basic principle of this draft European Standard allows the determination of non-metallic inclusion content by image analysis techniques.

Metallographische Prüfung des Gehaltes nichtmetallischer Einschlüsse in Stählen mit Bildreihen

Dieser Europäische Normentwurf legt ein Verfahren zur mikroskopischen Kennzeichnung von nichtmetallischen endogenen Einschlüssen unter Verwendung von Richtreihenbildern fest.
Das Verfahren gilt nicht für Teilchen mit einer Länge oder einem Durchmesser kleiner als 3,0 µm oder einer Breite kleiner als 2,0 µm. Sofern in einer Produktnorm oder durch Vereinbarung zwischen den Beteiligten für spezielle Produkte festgelegt, können Einschlüsse mit einer Breite kleiner als 2,0 µm ausschließlich nach ihrer Länge bewertet werden. Einschlüsse, deren Maße die in Tabelle 2 angegebenen oberen Grenzen überschreiten, werden als zugehörig zur größten Klasse gewertet und gesondert mit ihren tatsächlichen Maßen aufgezeichnet (siehe 7.5.6).
Es wird vorausgesetzt, falls Teilchen gestreckt sind oder falls zeilenförmige Anordnungen von Teilchen auftreten diese parallel zueinander liegen. Andere Anordnungen werden durch diesen Normentwurf nicht berück¬sichtigt. Dieser Europäische Normentwurf gilt für Proben mit mikroskopischen Agglomerationen unter der Annahme einer makroskopisch regellosen Verteilung.
Aus den mit den hier beschriebenen Verfahren erzielten Messwerten kann eine Auswertung nach anderen Normen abgeleitet werden.
Dieser Europäische Normentwurf gilt nicht für Automatenstähle.
ANMERKUNG   Das Grundprinzip dieses Europäischen Normentwurfes ermöglicht die Bestimmung des Gehaltes an nichtmetallischen Einschlüssen mittels Bildanalysetechnik.

Détermination micrographique de la teneur en inclusions non-métalliques des aciers à l'aide d'images- types

Ce projet de Norme européenne définit une méthode de cotation des inclusions microscopiques endogènes non-métalliques à l'aide d'images types.
La méthode ne s'applique pas aux particules de longueur ou diamètre inférieure à 3,0 µm ou de largeur inférieure à 2,0 µm. Lorsque cela est défini dans la norme de produit ou par accord entre les parties intéressées, les inclusions de largeur inférieure à 2,0 µm peuvent être évaluées uniquement selon leur longueur. Les inclusions allongées de longueur supérieure aux limites indiquées au Tableau 2 sont comptées comme faisant partie de la classe maximum et notées séparément avec leurs dimensions réelles (voir 7.5.6)
Il est admis que si les particules sont allongées ou si elles sont en amas, elles sont parallèles entre elles. D'autres dispositions ne sont pas couvertes par ce projet de Norme. Ce projet de Norme européenne s'applique aux échantillons présentant une ségrégation microscopique présentant une distribution au hasard.
À partir des données des mesures obtenues par la présente méthode, une évaluation selon d'autres normes peut être établie.
Ce projet de Norme européenne n'est pas adapté aux aciers de décolletage.
NOTE   Le principe de base de ce projet de Norme européenne permet la détermination de la teneur inclusionnaire par les techniques d'analyse d'image.

Mikrografsko ugotavljanje deleža nekovinskih vključkov v jeklih z uporabo standardnih slik

Ta osnutek evropskega standarda opredeljuje metodo mikroskopskega ugotavljanja deleža nekovinskih vključkov v jeklih z uporabo slik.
Metoda se ne uporablja za delce dolžine ali premera manj kot 3,0 μm ali širine, manjše od 2,0 μm. Če tako določa standard za izdelek ali sporazum med vpletenimi strankami za določene posebne izdelke, je mogoče ugotoviti delež vključkov s širino pod 2,0 μm samo po dolžini. Ugotavljanje deleža vključkov z merami, ki presegajo zgornje meje v tabeli 2, se izvaja ob predpostavki, da pripadajo najvišjemu razredu in se posebej zabeležijo s svojimi dejanskimi dimenzijami (glej 7.5.6).
Če so delci podolgovati ali če obstajajo ostanki delcev, se predpostavlja, da so med seboj vzporedni. Druge ureditve niso zajete v osnutku tega standarda. Ta osnutek evropskega standarda se uporablja za vzorce z mikroskopskimi usedlinami, ki se približujejo naključni porazdelitvi.
Iz podatkov meritev, pridobljenih s to metodo, je mogoče izvesti vrednotenje v skladu z drugimi standardi.
Ta osnutek evropskega standarda se ne uporablja za avtomatna jekla.
OPOMBA: Osnovno načelo tega osnutka evropskega standarda omogoča določanje vsebnosti nekovinskih vključkov s pomočjo tehnik za analizo slike.

General Information

Status
Published
Public Enquiry End Date
02-Mar-2016
Publication Date
22-Oct-2017
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
28-Jul-2017
Due Date
02-Oct-2017
Completion Date
23-Oct-2017

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SLOVENSKI STANDARD
SIST EN 10247:2017
01-december-2017
0LNURJUDIVNRXJRWDYOMDQMHGHOHåDQHNRYLQVNLKYNOMXþNRYYMHNOLK]XSRUDER
VWDQGDUGQLKVOLN
Micrographic examination of the non-metallic inclusion content of steels using standard
pictures
Metallographische Prüfung des Gehaltes nichtmetallischer Einschlüsse in Stählen mit
Bildreihen
Détermination micrographique de la teneur en inclusions non-métalliques des aciers à
l'aide d'images- types
Ta slovenski standard je istoveten z: EN 10247:2017
ICS:
77.040.99 Druge metode za Other methods of testing of
preskušanje kovin metals
77.080.20 Jekla Steels
SIST EN 10247:2017 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 10247:2017

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SIST EN 10247:2017


EN 10247
EUROPEAN STANDARD

NORME EUROPÉENNE

July 2017
EUROPÄISCHE NORM
ICS 77.040.99 Supersedes EN 10247:2007
English Version

Micrographic examination of the non-metallic inclusion
content of steels using standard pictures
Détermination micrographique de la teneur en Metallographische Prüfung des Gehaltes
inclusions non-métalliques des aciers à l'aide d'images- nichtmetallischer Einschlüsse in Stählen mit Bildreihen
types
This European Standard was approved by CEN on 18 January 2017.

CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this
European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.

This European Standard exists in three official versions (English, French, German). A version in any other language made by
translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management
Centre has the same status as the official versions.

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





EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2017 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 10247:2017 E
worldwide for CEN national Members.

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SIST EN 10247:2017
EN 10247:2017 (E)
Contents Page
European foreword . 5
Introduction . 6
1 Scope . 7
2 Normative references . 7
3 Terms and definitions . 7
4 Symbols and abbreviations . 10
5 Principles . 12
6 Brief practical guide . 13
6.1 Basic rules for evaluation . 13
6.2 Evaluation according to the default rating methods . 14
7 Sampling . 14
7.1 General . 14
7.2 Degree of reduction . 15
7.3 Size and location of test area . 15
7.4 Number of specimens . 15
7.5 Preparation of specimens . 16
8 Test method . 16
8.1 Magnification . 16
8.2 Microscope settings for image analysis and manual analysis . 16
8.3 Field of view . 17
8.4 Definition of the pictures of the chart . 17
8.4.1 Size and Shape . 17
8.4.2 Parameters . 17
8.4.3 Arrangement of the pictures . 17
8.5 Procedure. 18
8.5.1 General . 18
8.5.2 Several inclusions of mixed sizes in one field . 18
8.5.3 Scanning . 18
8.5.4 Assessment and evaluation . 19
8.5.5 Evaluation of different types of inclusions . 19
8.5.6 Recording of results . 19
9 Types of assessment . 19
9.1 Worst inclusion method: method P . 19
9.1.1 Principle . 19
9.1.2 Evaluation of P (worst length) . 20
L
9.1.3 Evaluation of P (worst diameter). 20
d
9.1.4 Evaluation of P (worst area) . 20
a
9.2 Worst field method: method M. 20
9.2.1 Principle . 20
9.2.2 Evaluation of M (rating according to number) . 20
n
9.2.3 Evaluation of M (rating according to length) . 20
L
2

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SIST EN 10247:2017
EN 10247:2017 (E)
9.2.4 Evaluation of M (rating according to diameter) . 20
d
9.2.5 Evaluation of M (rating according to area) . 21
a
9.3 Average field method: method K . 21
9.3.1 Principle . 21
9.3.2 Scanning of a specimen for average field assessment . 21
9.3.3 Evaluation. 21
9.3.4 Evaluation of K , K for elongated and K , K for globular inclusions. 21
n L n d
9.3.5 Evaluation of K and K . 22
n a
10 Test report . 22
Annex A (normative) Type of inclusions . 34
Annex B (normative) Parameters and assessments to be used if not otherwise specified . 37
Annex C (informative) Examples for inclusions of different types . 38
Annex D (informative) Shape factor . 42
Annex E (informative) Examples for magnification . 43
Annex F (informative) Details of the eyepiece graticules . 45
Annex G (normative) Manufacturing specifications of the eyepiece graticule. 46
G.1 General . 46
G.2 Narrow field microscopes. 46
G.3 Broad field microscopes . 48
Annex H (normative) Calculation basis for the pictures of the chart . 50
Annex I (normative) Rules for classification . 52
I.1 Definition of classes . 52
I.2 Classification of length . 52
I.3 Classification of width . 52
I.4 Classification of diameter . 52
Annex J (informative) Comparison of inclusion types in different standards . 53
Annex K (informative) Worst inclusion assessment . 54
Annex L (informative) Worst field assessment . 58
L.1 General . 58
L.2 Evaluation of M . 58
n
L.3 Evaluation of M , M and M . 58
n L d
L.4 Evaluation of M and M . 58
n a
Annex M (informative) Average field assessment . 62
M.1 General . 62
M.2 Evaluation of K , K and K . 62
n L d
M.3 Evaluation of K and K . 62
n a
M.4 Restricted assessment . 62
3

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SIST EN 10247:2017
EN 10247:2017 (E)
Annex N (normative) Calculation basis for the assessment . 74
N.1 Worst inclusion assessment . 74
N.2 Worst field assessment . 74
N.3 Average field . 75
Annex O (informative) Edge Errors correction . 77
O.1 General . 77
O.2 Measurement . 77
O.3 Large inclusions . 77
Annex P (normative) Calculation of average values of parameters for one class . 79
Annex Q (normative) Average values of parameters . 80
Bibliography . 81

4

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SIST EN 10247:2017
EN 10247:2017 (E)
European foreword
This document (EN 10247:2017) has been prepared by Technical Committee ECISS/TC 101 “Test
methods for steel (other than chemical analysis)”, the secretariat of which is held by AFNOR.
This European Standard shall be given the status of a national standard, either by publication of an
identical text or by endorsement, at the latest by January 2018, and conflicting national standards shall
be withdrawn at the latest by January 2018.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN shall not be held responsible for identifying any or all such patent rights.
This document supersedes EN 10247:2007.
The many changes in the current revision result from only a few basic adjustments. The length to width
limit ratio for globular inclusions has been changed from 1,3 to 3 (Annex I), and the mathematical
principles underlying the chart have been more clearly defined (Annex H). These two changes have led
to many numerical changes in Table 2 and Figure 11, where moreover some classes have been deleted
and others added. The rules of assessment have changed, most notably to allow stringer formation from
two particles upward (Subclause 3.1.2, Annex B), to exclude stringer formation between a stringer and
a single particle (Subclause 3.1.2), and to consistently define the classification of inclusions by shape,
arrangement, and colour (Clause 3, Annexes A and B). Finally, the assessment and recording sheets
have been redesigned to simplify manual use (Annexes K, L, and M).
According to the CEN-CENELEC Internal Regulations, the national standards organisations of the
following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria,
Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia,
France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta,
Netherlands, Norway, Poland, Portugal, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and the United Kingdom.
5

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SIST EN 10247:2017
EN 10247:2017 (E)
Introduction
This document establishes procedures for the assessment of inclusions in steels, based on their
morphology using standard pictures.
These procedures include principles that yield results coherent with consolidated individual inclusion
measurements and expressed in physical units.
The chart of standard pictures is derived from mathematical principles. In distinction to other inclusion
rating standards, in this standard the order of the classification begins with the length (row index q).
The results may be directly computed from field assessments. The same precision level is achieved by
using the same method in manual evaluation and computer controlled measurements.
2 2 2 2
The results are in physical units: length in μm/mm , number/mm , areas in μm /mm .
6

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SIST EN 10247:2017
EN 10247:2017 (E)
1 Scope
This European Standard defines a method of microscopic non-metallic endogenous inclusion
assessment using picture charts.
The method does not apply to particles of a length or diameter less than 3,0 µm or a width smaller than
2,0 µm. If defined by a product standard or agreement between the involved parties for certain special
products, inclusions with a width below 2,0 µm can be evaluated by length alone. Inclusions with
dimensions exceeding the upper limits in Table 2 are evaluated as belonging to the maximum class and
noted separately with their true dimensions (see 8.5.6).
It is assumed, if particles are elongated or if there are stringers of particles, that they are parallel to each
other. Other arrangements are not covered by this draft standard. This draft European Standard applies
to samples with a microscopic precipitation approaching random distribution.
From the data of measurements obtained by this method, evaluation according to other standards can
be established.
This draft European Standard does not apply to free cutting steels.
NOTE The basic principle of this draft European Standard allows the determination of non-metallic inclusion
content by image analysis techniques.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
EN ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories
(ISO/IEC 17025)
ISO 9042, Steels — Manual point counting method for statistically estimating the volume fraction of a
constituent with a point grid
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1 General:
3.1.1
particle
single precipitate, in general non-metallic
3.1.2
stringer
arrangement of at least 2 particles, normally aligned, that meet the proximity conditions e ≤ 40 µm and
t ≤ 10 µm
Note 1 to entry: For formation of stringers particles with L < 3 µm or w < 2 µm are not taken into account
(see Figure 5).
Note 2 to entry: See Figure 3 for proximity conditions, Figure 7 and Annex B and Annex C for examples
7

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SIST EN 10247:2017
EN 10247:2017 (E)
3.1.3
inclusion
general designation of a ratable feature composed of at least one particle, defined by the size and
proximity of its constituents
Note 1 to entry: The inclusion can describe a single particle; a single stringer; or an agglomeration of stringers.
Note 2 to entry: Stringers that meet the proximity conditions e ≤ 40 µm and t ≤ 10 µm form an agglomeration of
stringers (see Figure 4). Formation of inclusions by combining stringers and single particles is not permitted.
Note 3 to entry: If elongated and globular particles are combined (see Figure 6), in general the result is treated
as one inclusion.
Note 4 to entry: For further examples see Figure 7.
3.1.4
test area
area on the polished surface of the specimen to be evaluated
3.2 Proximity:
3.2.1
distances between particles
distance e between the particles in the direction of main deformation and distance t in the direction
perpendicular to it
Note 1 to entry: See Figure 3 for illustration.
3.2.2
distance between stringers
similar to that for the distance between particles
Note 1 to entry: See Figure 4 for illustration.
3.2.3
scattered
random arrangement of particles
Note 1 to entry: For example see Annex C. This is defined in one field of view.
3.3 Parameters:
3.3.1
length
dimension of an inclusion in the main deformation direction, usually larger than the width
3.3.2
diameter
maximum dimension of inclusion classified according to column 6 (globular inclusion)
8

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SIST EN 10247:2017
EN 10247:2017 (E)
3.3.3
width
dimension of inclusion perpendicular to the direction of principal deformation
Note 1 to entry: In particular for inclusions consisting of more than one particle, a subscript of “total” can be
used to distinguish its width from the individual widths of the particles.
Note 2 to entry: For inclusions consisting of a single particle, the width is the maximum dimension
perpendicular to the main deformation direction (see Figure 1).
For inclusions consisting of a single stringer, the width is the width of the confining rectangle (see Figure 2).
For inclusions consisting of an agglomeration of stringers, three cases apply:
— Case a) two stringers for which 0 ≤ e ≤ 40 µm, t ≤ 10 µm: the width of this inclusion is the width of the widest
stringer (w = w ; w > w ; see Figure 4 a)).
total 1 1 2
— Case b) two stringers for which e < 0 µm, t ≤ 10 µm: the width of this inclusion is the sum of the stringers’
widths and the distance t (wtotal = w1 + w2 + t; see Figure 4 b)).
— Case c) an agglomeration of more than two stringers: the width of this inclusion is the widest width obtained
by applying the rules in case a) and b) (see Figure 4 c))
3.3.4
area
area of the equivalent ellipse, calculated as
π
a= × Lw× , (1)
total
4
or, in the case of globular particles,
π
2
ad× (2)
4
Note 1 to entry: For details see 3.3.2 and Figures 1, 2, and 4.
3.3.5
shape factor
exponent f in the formula:
2
π f
× L
 L 
4
= (3)
 
a 1µm
 
Note 1 to entry: For details see Annex D.
3.4 Classes:
3.4.1
elongated particles
particles with a ratio L/w ≥ 3
Note 1 to entry: See Figure 1 for illustration.
9
=

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SIST EN 10247:2017
EN 10247:2017 (E)
3.4.2
globular particles
particles with a ratio L/w < 3
Note 1 to entry: See Figure 1 for illustration.
3.4.3
type
distinction of inclusions according to their shape, arrangement, and colour, and, if desired, by their
apparent chemical composition
Note 1 to entry: See Annex A for illustration.
3.5 Others:
3.5.1
lot
unit of material processed at one time and subject to similar processing variables
3.5.2
restricted values
values of the average field assessment restricted to inclusions of a specified size range, or restricted to
inclusions of specified types
Note 1 to entry: See Annex M.4 and Tables M.6 and M.7 for further detail.
4 Symbols and abbreviations
For the purposes of this document, the following symbols and abbreviations apply.
Symbol Unit Designation
2
A area of field of view on the specimen
µm
2
B polished surface
mm
D  diameter of product
G  magnification
H µm length of measuring frame on the specimen
-, µm,
K average field assessment
2 2
µm /mm
L µm length of inclusions
-, µm,
M worst field assessment
2 2
µm /mm
MD  main deformation direction (e.g. rolling direction)
N
 number of fields
j
N
 number of specimens
s
P  worst inclusion assessment
10

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SIST EN 10247:2017
EN 10247:2017 (E)
Q  factor for K-assessment
R  restricted values
2
a area of inclusions
µm

 average (mean) value of n, L, w, a .
av or
b mm width of the plate
b  black
c  coloured (pink or yellow) (typically nitrides)
d µm diameter of inclusions
distance between the particles in the main deformation
e µm
direction
f  shape factor
g  grey (typically sulphides)
i  inclusion index
j  field index
k  column number
m  type of inclusion index
max  index of maximum value of n, L, w, d, a (in j or s)
n  number of assessed particles, inclusions
n
 number of assessed inclusions per specimen
s
p  particle index
q  row number
s  specimen index
distance between the particles perpendicular to the
t µm
main deformation direction
u µm scale unit in microscope eyepiece
v mm width of polished surface
w µm width of inclusions
x  variable
α  scattered, elongated inclusion type
α  scattered, elongated, black inclusion type
b
αc  scattered, elongated, coloured inclusion type
αg  scattered, elongated, grey inclusion type
β  aligned, globular inclusion type
βb  aligned, globular, black inclusion type,
11

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SIST EN 10247:2017
EN 10247:2017 (E)
β  aligned, globular, coloured inclusion type
c
βg  aligned, globular, grey inclusion type
γ  aligned, elongated inclusion type
γb  aligned, elongated, black inclusion type
γc  aligned, elongated, coloured inclusion type
γg  aligned, elongated, grey inclusion type
δ  scattered, globular inclusion type
δb  scattered, globular, black inclusion type
δc  scattered, globular, coloured inclusion type
δ  scattered, globular grey inclusion type
g
Combined symbols shall be written with indices.
EXAMPLE K average field assessment for length;
L
 n number of inclusions in a field;
j
 average number of inclusions per field.
n
j
5 Principles
This standard consists of a comparison between inclusions observed in a field of view and chart
pictures. The chart classifies inclusions into four different types according to their shape (8.4 /
Annex H). The minimum requirements for applying this method are a square measuring frame of
0,71 mm x 0,71 mm overlaid on the viewfield at a magnification of 100:1 (see Figure 9), along with the
chart – or alternatively a measuring scale and Table 2 of this draft standard.
An inclusion according to this standard can consist of a single particle, a stringer of particles, or an
agglomeration of stringers. All inclusions are treated as ellipses (see Figure 1), with special rules for
agglomerations of stringers (3.1.3 / Figure 4). Inclusions are classified according to shape, arrangement,
and size (Annex A). A classification by colour is also permiss
...

SLOVENSKI STANDARD
oSIST prEN 10247:2016
01-februar-2016
0LNURJUDIVNRXJRWDYOMDQMHGHOHåDQHNRYLQVNLKYNOMXþNRYYMHNOLK]XSRUDER
VWDQGDUGQLKVOLN
Micrographic examination of the non-metallic inclusion content of steels using standard
pictures
Metallographische Prüfung des Gehaltes nichtmetallischer Einschlüsse in Stählen mit
Bildreihen
Ta slovenski standard je istoveten z: prEN 10247
ICS:
77.040.99 Druge metode za Other methods of testing of
preskušanje kovin metals
77.080.20 Jekla Steels
oSIST prEN 10247:2016 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 10247:2016

---------------------- Page: 2 ----------------------
oSIST prEN 10247:2016


DRAFT
EUROPEAN STANDARD
prEN 10247
NORME EUROPÉENNE

EUROPÄISCHE NORM

January 2016
ICS 77.040.99 Will supersede EN 10247:2007
English Version

Micrographic examination of the non-metallic inclusion
content of steels using standard pictures
 Metallographische Prüfung des Gehaltes
nichtmetallischer Einschlüsse in Stählen mit Bildreihen
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee
ECISS/TC 101.

If this draft becomes a European Standard, CEN members are bound to comply with the CEN/CENELEC Internal Regulations
which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.

This draft European Standard was established by CEN in three official versions (English, French, German). A version in any other
language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC
Management Centre has the same status as the official versions.

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

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 supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without
notice and shall not be referred to as a European Standard.


EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2016 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 10247:2016 E
worldwide for CEN national Members.

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Contents Page
European foreword . 5
Introduction . 6
1 Scope . 7
2 Normative references . 7
3 Terms and definitions . 7
4 Symbols and abbreviations . 9
5 Principles . 11
6 Brief practical guide . 12
6.1 Basic rules for evaluation . 12
6.2 Evaluation according to the default rating methods . 13
7 Sampling . 13
7.1 General . 13
7.2 Minimum reduction. 13
7.3 Size and location of test area . 14
7.4 Number of specimens . 14
7.5 Preparation of specimens . 14
8 Test method . 15
8.1 Magnification . 15
8.2 Microscope settings for image analysis and manual analysis . 15
8.3 Field of view . 15
8.4 Definition of the pictures of the chart . 16
8.4.1 Size and Shape . 16
8.4.2 Parameters . 16
8.4.3 Arrangement of the pictures . 16
8.5 Procedure. 16
8.5.1 General . 16
8.5.2 Several inclusions of mixed sizes in one field . 17
8.5.3 Scanning . 17
8.5.4 Assessment and evaluation . 17
8.5.5 Evaluation of different types of inclusions . 17
8.5.6 Recording of results . 18
9 Types of assessment . 18
9.1 Worst inclusion method: method P . 18
9.1.1 Principle . 18
9.1.2 Evaluation of P (worst length) . 18
L
9.1.3 Evaluation of P (worst diameter). 18
d
9.1.4 Evaluation of P (worst area) . 19
a
9.2 Worst field method: method M. 19
9.2.1 Principle . 19
9.2.2 Evaluation of M (rating according to number) . 19
n
9.2.3 Evaluation of M (rating according to length) . 19
L
9.2.4 Evaluation of M (rating according to diameter) . 19
d
9.2.5 Evaluation of M (rating according to area) . 19
a
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9.3 Average field method: method K . 19
9.3.1 Principle . 19
9.3.2 Scanning of a specimen for average field assessment . 20
9.3.3 Evaluation. 20
9.3.4 Evaluation of K , K for elongated and K , K for globular inclusions. 20
n L n d
9.3.5 Evaluation of K and K . 20
n a
10 Test report . 20
Annex A (normative) Type of inclusions . 32
Annex B (normative) Parameters and assessments to be used if not otherwise specified . 34
Annex C (informative) Examples for inclusions of different types . 35
Annex D (informative) Shape factor . 39
Annex E (informative) Examples for magnification . 40
Annex F (informative) Details of the eyepiece graticules . 42
Annex G (normative) Manufacturing of eyepiece graticule . 43
G.1 General . 43
G.2 Narrow field microscopes. 43
G.3 Broad field microscopes . 45
Annex H (normative) Calculation basis for the pictures of the chart . 47
Annex I (normative) Rules for classification . 49
I.1 Definition of classes . 49
I.2 Classification of length . 49
I.3 Classification of width . 49
I.4 Classification of diameter . 49
Annex J (informative) Comparison of inclusion types in different standards . 50
Annex K (informative) Worst inclusion assessment . 51
Annex L (informative) Worst field assessment . 55
L.1 General . 55
L.2 Evaluation of M . 55
n
L.3 Evaluation of M , M and M . 55
n L d
L.4 Evaluation of M and M . 55
n a
Annex M (informative) Average field assessment . 59
M.1 General . 59
M.2 Evaluation of K , K and K . 59
n L d
M.3 Evaluation of K and K . 59
n a
M.4 Restricted assessment . 59
Annex N (normative) Calculation basis for the assessment . 67
N.1 Worst inclusion assessment . 67
N.2 Worst field assessment . 67
N.2.1 General . 67
N.2.2 Calculation of M . 67
n
N.2.3 Calculation of M . 67
L
N.2.4 Calculation of M . 68
d
N.2.5 Calculation of M . 68
a
N.3 Average field . 68
Annex O (informative) Edge Errors correction . 70
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O.1 General . 70
O.2 Measurement . 70
O.3 Large inclusions . 70
Annex P (normative) Calculation of average values of parameters for one class . 72
Annex Q (normative) Average values of parameters . 73
Bibliography . 74

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European foreword
This document (prEN 10247:2016) has been prepared by Technical Committee ECISS/TC 101 “Test
methods for steel (other than chemical analysis)”, the secretariat of which is held by AFNOR.
This document is currently submitted to the CEN Enquiry.
This document will supersede EN 10247:2007.
The many changes in the current revision result from only a few basic adjustments. The length to width
limit ratio for globular inclusions has been changed from 1,3 to 3 (Annex I), and the mathematical
principles underlying the chart have been more clearly defined (Annex H). These two changes have led
to many numerical changes in Table 2 and Figure 11, where moreover some classes have been deleted
and others added. The rules of assessment have changed, most notably to allow stringer formation from
two particles upward (Subclause 3.1.2, Annex B), to exclude stringer formation between a stringer and
a single particle (Subclause 3.1.2), and to consistently define the classification of inclusions by shape,
arrangement, and colour (Clause 4, Annexes A and B). Finally, the assessment and recording sheets
have been redesigned to simplify manual use (Annexes K, L, and M).
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Introduction
This document establishes procedures for the assessment of inclusions in steels, based on their
morphology using standard pictures.
These procedures include principles that are coherent with physical results obtained from inclusion
measurements.
The chart of standard pictures is derived from mathematical principles. In distinction to other inclusion
rating standards, in this standard the order of the classification begins with the length (row index q).
The results may be directly computed from field assessments. The same precision level is achieved by
using the same method in manual evaluation and computer controlled measurements.
2 2 2 2
The results are in physical units: length in μm/mm , number/mm , areas in μm /mm .
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1 Scope
This draft European Standard defines a method of microscopic non-metallic endogenous inclusion
assessment using picture charts.
The method does not apply to particles of a length or diameter less than 3,0 µm or a width smaller than
2,0 µm. If defined by a product standard or agreement between the involved parties for certain special
products, inclusions with a width below 2,0 µm can be evaluated by length alone.Inclusions with
dimensions exceeding the upper limits in Table 2 are evaluated as belonging to the maximum class and
noted separately with their true dimensions (see 7.5.6).
It is assumed, if particles are elongated or if there are stringers of particles, that they are parallel to each
other. Other arrangements are not covered by this draft standard. This draft European Standard applies
to samples with a microscopic precipitation approaching random distribution.
From the data of measurements obtained by this method, evaluation according to other standards can
be established.
This draft European Standard does not apply to free cutting steels.
NOTE The basic principle of this draft European Standard allows the determination of non-metallic inclusion
content by image analysis techniques.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
EN ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories
(ISO/IEC 17025)
ISO 9042, Steels — Manual point counting method for statistically estimating the volume fraction of a
constituent with a point grid
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1 General:
3.1.1
particle
single precipitate, in general non-metallic
3.1.2
stringer
arrangement of at least 2 particles, normally aligned, that meet the proximity conditions e ≤ 40 µm and
t ≤ 10 µm (see Figure 4 for proximity conditions, Annex C for examples)
Note 1 to entry: Particles with L < 3 µm or w < 2 µm are not taken into account (see Figure 5).
3.1.3
inclusion
general designation of a ratable feature composed of at least one particle, defined by the size and
proximity of its constituents. It can describe a single particle; a single stringer; or an agglomeration of
stringers
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Note 1 to entry: Stringers that meet the proximity conditions e ≤ 40 µm and t ≤ 10 µm form an agglomeration of
stringers (see Figure 4). Formation of inclusions by combining stringers and single particles is not permitted.
Note 2 to entry: If elongated and globular particles are combined (see Figure 6), in general the result is treated
as one inclusion.
3.1.4
test area
area on the polished surface of the specimen to be evaluated
3.2 Proximity:
3.2.1
distances between particles
distance e between the particles in the direction of main deformation and distance t in the direction
perpendicular to it (see Figure 3)
3.2.2
distance between stringers
similar to that for the distance between particles (see Figure 4)
3.2.3
scattered
random arrangement of particles
Note 1 to entry: For example see Annex C. This is defined in one field of view.
3.3 Parameters:
3.3.1
length
dimension of an inclusion in the main deformation direction, usually larger than the width
3.3.2
diameter
maximum dimension of inclusion classified according to column 6 (globular inclusion)
3.3.3
width
dimension of inclusion perpendicular to the direction of principal deformation
Note 1 to entry: For inclusions consisting of a single particle, the width is the maximum dimension
perpendicular to the main deformation direction (see Figure 1).
For inclusions consisting of a single stringer, the width is the width of the confining rectangle (see Figure 2).
For inclusions consisting of an agglomeration of stringers, three cases apply:
— Case a) two stringers for which 0 ≤ e ≤ 40 µm, t ≤ 10 µm: the width of this inclusion is the width of the widest
stringer (w = w ; w > w ; see Figure 4 a)).
total 1 1 2
— Case b) two stringers for which e < 0 µm, t ≤ 10 µm: the width of this inclusion is the sum of the stringers’
widths and the distance t (w = w + w + t; see Figure 4 b)).
total 1 2
— Case c) an agglomeration of more than two stringers: the width of this inclusion is the widest width obtained
by applying the rules in case a) and b) (see Figure 4 c))
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3.3.4
area
π
area of the equivalent ellipse, calculated as a= ××Lw , or, in the case of globular particles,
total
4
π
2
a ×d (see 3.3.3 and Figures 1 and 2)
4
3.3.5
shape factor
exponent f in the formula:
2
f
π
× L
 L 
4
=  (3)
 
a 1µm
 
Note 1 to entry: For details see Annex D.
3.4 Classes:
3.4.1
elongated particles
particles with a ratio L/w ≥ 3 (see Figure 1)
3.4.2
globular particles
particles with a ratio L/w < 3 (see Figure 1)
3.4.3
type
distinction of inclusions according to their shape, arrangement, and colour, and, if desired, by their
apparent chemical composition (see Annex A)
3.5 Others:
3.5.1
lot
unit of material processed at one time and subject to similar processing variables
3.5.2
restricted values
values of the average field assessment restricted to inclusions greater and/or smaller than a defined
length/diameter or area, or restricted to inclusions of specified types
4 Symbols and abbreviations
For the purposes of this document, the following symbols and abbreviations apply.
Symbol Unit Designation
2
a area of inclusions
µm
b mm width of the plate
b  black
c  coloured (pink or yellow) (typically nitrides)
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d µm diameter of inclusions
e µm interparticle distance (elongation axis)
f  shape factor
g  grey (typically sulphides)
i  inclusion index
j  field index
k  column number
m  type of inclusion index
max  index of maximum value of n, L, w, d, a (in j or s)
n  number of assessed particles, inclusions
n
 number of assessed inclusions per specimen
s
p  particle index
q  row number
s  specimen index
t µm interparticle distance (transverse axis)
u µm scale unit in microscope eyepiece
v mm width of polished surface
w µm width of inclusions
x  variable

 average value of n, L, w, a .
av or
α  scattered, elongated inclusion type
α  scattered, elongated, black inclusion type
b
α  scattered, elongated, coloured inclusion type
c
α  scattered, elongated, grey inclusion type
g
β  aligned, globular inclusion type
β  aligned, globular, black inclusion type,
b
β  aligned, globular, coloured inclusion type
c
β  aligned, globular, grey inclusion type
g
γ  aligned, elongated inclusion type
γ  aligned, elongated, black inclusion type
b
γc  aligned, elongated, coloured inclusion type
γ  aligned, elongated, grey inclusion type
g
δ  scattered, globular inclusion type
δ  scattered, globular, black inclusion type
b
δ  scattered, globular, coloured inclusion type
c
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δ  scattered, globular grey inclusion type
g
2
A area of field of view on the specimen
µm
2
B polished surface
mm
D  diameter of product
MD  main deformation direction (e.g. rolling direction)
G  magnification
H µm length of measuring frame on the specimen
2 2
K average field assessment
-, µm, µm /mm
L µm length of inclusions
2 2
M worst field assessment
-, µm, µm /mm
N
 number of fields
j
N
 number of specimens
s
P  worst inclusion assessment
Q  factor for K-assessment
R  restricted values
Combined symbols can be written as index or on one line.
EXAMPLE K , KL average field assessment for length;
L
 n , nj number of inclusions in a field;
j
 average number of inclusions per field.
n , nj
j

5 Principles
This standard consists of a comparison between inclusions observed in a field of view and chart
pictures. The chart classifies inclusions into four different types according to their shape (7.4 /
Annex H). The minimum requirements for applying this method are a square measuring frame of
0,71 mm x 0,71 mm overlaid on the viewfield at a magnification of 100:1 (see Figure 9), along with the
chart – or alternatively a measuring scale and Table 2 of this draft standard.
An inclusion according to this standard can consist of a single particle, a stringer of particles, or an
agglomeration of stringers. All inclusions are treated as ellipses (see Figure 1), with special rules for
agglomerations of stringers (3.1.2 / Figure 4). Inclusions are classified according to shape, arrangement,
and size (Annex A). A classification by colour is also permissible in order to differentiate apparent
chemical composition (Annex A), although this classification provides no information on crystal
structure or actual chemical composition.
The length and width of an inclusion are estimated by the class values of its corresponding row and
column in the picture chart. The chart pictures depict the upper class boundaries. Upon classification,
all further calculations refer to the class values in Table 2.
This standard yields different results depending on the chosen method: the largest inclusions (worst
inclusion method), the largest inclusion parameters per field of view (worst fiel
...

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