IEC 61631:2001
(Main)Test method for the mechanical strength of cores made of magnetic oxides
Test method for the mechanical strength of cores made of magnetic oxides
Specifies a test method for the mechanical strength of cores made of magnetic oxides. This test method is suitable for most of the E-cores, ETD-cores and I-cores but other core types such as U-cores could be tested according to a derived method agreed by the parties concerned.
Méthode d'essai pour la résistance mécanique des noyaux en oxydes magnétiques
Spécifie une méthode d'essai pour la résistance mécanique des noyaux en oxydes magnétiques. Cette méthode d'essai est adaptée à la plupart des noyaux E, noyaux ETD et noyaux I, mais d'autres types de noyaux tels que les noyaux en U pourraient être soumis aux essais selon une méthode dérivée convenue par les parties concernées.
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INTERNATIONAL IEC
STANDARD
First edition
2001-06
Test method for the mechanical strength
of cores made of magnetic oxides
Méthode d'essai pour la résistance mécanique
des noyaux en oxydes magnétiques
Reference number
Publication numbering
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60000 series. For example, IEC 34-1 is now referred to as IEC 60034-1.
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INTERNATIONAL IEC
STANDARD
First edition
2001-06
Test method for the mechanical strength
of cores made of magnetic oxides
Méthode d'essai pour la résistance mécanique
des noyaux en oxydes magnétiques
IEC 2001 Copyright - all rights reserved
No part of this publication may be reproduced or utilized in any form or by any means, electronic or
mechanical, including photocopying and microfilm, without permission in writing from the publisher.
International Electrotechnical Commission 3, rue de Varembé Geneva, Switzerland
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– 2 – 61631 IEC:2001(E)
CONTENTS
FOREWORD . 3
INTRODUCTION .4
1 Scope . 5
2 Normative references . 5
3 Definitions. 5
4 Apparatus . 5
4.1 Test core support and loading wedge . 5
4.2 Testing device. 6
4.3 Humidity measuring device. 6
5 Test cores. 6
5.1 Number of test-cores. 6
5.2 Precautions. 6
6 Testing. 6
6.1 Test conditions. 6
6.2 Test procedures . 6
Annex A (normative) Standard E core dimensions and its support for strength test . 10
61631 IEC:2001(E) – 3 –
INTERNATIONAL ELECTROTECHNICAL COMMISSION
___________
TEST METHOD FOR THE MECHANICAL STRENGTH
OF CORES MADE OF MAGNETIC OXIDES
FOREWORD
1) The IEC (International Electrotechnical Commission) is a worldwide organization for standardization
comprising all national electrotechnical committee (IEC National Committee). The object of the IEC is to
promote international co-operation on all questions concerning standardization in the electrical and electronic
fields. To this end and in addition to other activities, the IEC publishes International Standards. Their
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6) Attention is drawn to the possibility that some of the elements of this International Standard may be the
subject of patent rights. The IEC shall not be responsible for identifying any or all such patent rights.
International Standard IEC 61631 has been prepared by technical committee 51: Magnetic
components and ferrite materials.
The text of this standard is based on the following documents:
FDIS Report on voting
51/599/FDIS 51/610/RVD
Full information on the voting for the approval of this standard can be found in the report on
voting indicated in the above table.
This publication has been drafted in accordance with the ISO/IEC Directives, Part 3.
The committee has decided that the contents of this publication will remain unchanged until
2005. At this date, the publication will be
• reconfirmed;
• withdrawn;
• replaced by a revised edition, or
• amended.
A bilingual version of this publication may be issued at a later date.
– 4 – 61631 IEC:2001(E)
INTRODUCTION
The method specified in this standard is intended to be used for obtaining agreements between
parties for material development, quality checking, characterization and data acquisition
purposes. The method places closely defined restrictions on the arrangement of the test-piece
and the function of the test apparatus, including the test-jigs, in order to minimize the errors
that can arise as a consequence of the test method.
All other factors are required to be stated in the test report in order to be allowed for in the
comparison of the behavior of the magnetic oxide cores. It is not possible to rigorously
standardize particular surface finishes, since it is difficult to control all the mechanical factors.
But, it is absolutely essential to mention the state of the surface in the report, as surface
defects can have a large effect on mechanical strength in certain types of tests (see clause 6).
The extrapolation of mechanical strength data to other geometries, to multi-axial stressing, to
other rates of stressing or to other environmental conditions, should be viewed with caution.
The origin of a fracture in a mechanical test piece can be a valuable guide to the nature and
position of strength-limiting defects (such as pores, large grains and impurity concentration).
The results of strength tests are influenced by a combination of the following factors: the micro-
structure of the material, the surface finishing procedure applied to the test cores, the size and
shape of the test cores, the mechanical parameters of the testing apparatus, the rate of load
application and the relative humidity of the ambient atmosphere. Because of the ceramic
nature of magnetic oxide cores, a considerable range of results is usually obtained from a
number of nominally identical test cores. Thus test results need to be interpreted with caution.
61631 IEC:2001(E) – 5 –
TEST METHOD FOR THE MECHANICAL STRENGTH
OF CORES MADE OF MAGNETIC OXIDES
1 Scope
This International Standard specifies a test method for the mechanical strength of cores made
of magnetic oxides. This test method is suitable for most of the E-cores, ETD-cores and
I-cores but other core types such as U-cores could be tested according to a derived method
agreed by the parties concerned.
2 Normative references
The following normative documents contain provisions which, through reference in this text,
constitute provisions of this International Standard. For dated references, subsequent
amendments to, or revisions of, any of these publications do not apply. However, parties to
agreements based on this International Standard are encouraged to investigate the possibility
of applying the most recent editions of the normative documents indicated below. For undated
references, the latest edition of the normative document referred to applies. Members of ISO
and IEC maintain registers of currently valid International Standards.
IEC 61246:1994, Magnetic oxide cores (E-cores) of rectangular cross-section and associated
parts – Dimensions
EN 10002-2:1992, Tensile testing of metallic materials – Part 2: Verification of the force
measuring system of the tensile testing machine
ISO 4677-1:1985, Atmospheres for conditioning and testing – Determination of relative humidity
– Part 1: Aspirated psychrometer method
ISO 4677-2:1985, Atmospheres for conditioning and testing – Determination of relative humidity
– Part 2: Whirling psychrometer method
3 Definitions
For the purpose of this International Standard, the following definition applies.
3.1
mechanical strength
the maximum recorded force at the instant of fracture of a magnetic oxide core when it is
loaded in bending
4 Apparatus
4.1 Test core support and loading wedge
Test cores shall be supported on free moving roller bars or on a flat support depending on their
size (see 6.2). The loading wedge and the roller bars or the flat support shall be made of
hardened steel with a hardness of 40 HRC to 60 HRC. The loading wedge and the roller bars
shall have a radius of 2 mm. The loading wedge shall be connected to a device for measuring
and recording the load applied.
– 6 – 61631 IEC:2001(E)
4.2 Testing device
The testing device shall be a mechanical testing machine capable of applying a force to the
loading wedge high enough to break the test core. The machine shall be capable of applying
the force at a constant loading-rate. The machine shall be equipped with a device for recording
the peak load applied to the test core. The accuracy of the machine shall be in accordance with
EN 10002-2, Grade 1 (accuracy 1 % of the indicated load). Force calibration of the machine
shall be checked in accordance with EN 10002-2.
4.3 Humidity measuring device
A humidity measuring device shall be as specified in ISO 4677-1 or ISO 4677-2 and shall be
capable of measuring relative humidity to an accuracy of ±2 %.
5 Test cores
The test cores shall be selected as agreed between the parties concerned. They may be
machined to the specified, dimensions, because any machined surface plays an important role
in the mechanical strength (see Introduction).
5.1 Number of test-cores
For material development, characterization or quality checking, the minimum number of test
cores shall be five pieces. For statistical evaluation of strength-data (e.g. Weibull parameters),
the minimum number shall be 30.
NOTE For comparison of data for different materials, it is important that the number of specimens is high enough
to obtain results with sufficient statistical confidence. Since the confidence limits, in general, depend on the number
of test results and their dispersion, the number of test specimens should be decided on the basis of statistical
considerations.
5.2 Precautions
The prepared test cores should be handled with care to avoid introduction of additional
damage. Test cores should be kept separately at all times, and should be wrapped individually
for transport.
6 Testing
6.1 Test conditions
The test shall be carried out at an ambient temperature between 15 °C and 35 °C. The
temperature shall not vary by more than 3 °C during the course of a test series. The relative
humidity shall be between 45 % and 85 % and shall not vary by more than 10 % during the
course of a test series.
6.2 Test procedures
6.2.1 General
The test core shall be arranged in the test apparatus in accordance with 6.2.2, 6.2.3, 6.2.4,
6.2.5 or 6.2.6 as applicable (see figures 1 to 5).
The E-test and W-test can be used
...
IEC 61631
Edition 1.0 2001-06
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Test method for the mechanical strength of cores made of magnetic oxides
Méthode d’essai pour la résistance mécanique des noyaux en oxydes
magnétiques
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by
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IEC 61631
Edition 1.0 2001-06
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Test method for the mechanical strength of cores made of magnetic oxides
Méthode d’essai pour la résistance mécanique des noyaux en oxydes
magnétiques
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
PRICE CODE
INTERNATIONALE
L
CODE PRIX
ICS 29.100.10 ISBN 2-8318-6114-4
– 2 – 61631 © CEI:2001
SOMMAIRE
AVANT-PROPOS.4
INTRODUCTION.6
1 Domaine d'application .8
2 Références normatives.8
3 Définitions .8
4 Appareillage .8
4.1 Support d'essai des noyaux et cale de charge .8
4.2 Dispositif d'essai .8
4.3 Dispositif de mesure de l'humidité .10
5 Noyaux d'essai .10
5.1 Nombre de noyaux d'essai .10
5.2 Précautions à prendre .10
6 Essais .10
6.1 Conditions d'essai .10
6.2 Procédures d'essai.10
Annexe A (normative) Dimensions types des noyaux E et leur support pour l'essai
de résistance .20
Figure 1 – Essai E .12
Figure 2 – Essai W .14
Figure 3 – Essai T .16
Figure 4 – Essai M.18
Figure 5 – Essai I.18
Figure A.1 – Désignation des noyaux E .20
Tableau A.1 – Support des noyaux d'essai.22
61631 © IEC:2001 – 3 –
CONTENTS
FOREWORD.5
INTRODUCTION.7
1 Scope.9
2 Normative references.9
3 Definitions .9
4 Apparatus.9
4.1 Test core support and loading wedge.9
4.2 Testing device .9
4.3 Humidity measuring device .11
5 Test cores .11
5.1 Number of test-cores .11
5.2 Precautions .11
6 Testing .11
6.1 Test conditions .11
6.2 Test procedures .11
Annex A (normative) Standard E core dimensions and their support for strength test .21
Figure 1 – E-test .13
Figure 2 – W-test .15
Figure 3 – T-test .17
Figure 4 – M-test.19
Figure 5 – I-test .19
Figure A.1 – Designation of E core .21
Table A.1 – Test core support .23
– 4 – 61631 © CEI:2001
COMMISSION ÉLECTROTECHNIQUE INTERNATIONALE
____________
METHODE D'ESSAI POUR LA RESISTANCE MECANIQUE
DES NOYAUX EN OXYDES MAGNETIQUES
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