Magnetic materials - Methods of measurement of the magnetic properties of electrical sheet and strip by means of a single sheet tester

This European Standard defines the general principles of the measurement of the magnetic properties of electrical sheets and strips by means of a single sheet tester and gives the technical details of the measurement of specific total loss and of magnetic field strength, excitation current and specific apparent power. This European Standard is applicable at power frequencies to : a) grain oriented magnetic sheet and strip : for the measurement between 1,0 T and 1,8 T of : specific total loss ; specific apparent power ; r.m.s. value of the magnetic field strength ; for the measurement up to peak values of magnetic field strength of 1 000 A/m of : peak value of the magnetic polarization ; peak value of the magnetic field strength ; b) non-oriented magnetic sheet and strip : for the measurement between 0,8 T and 1,5 T of : specific total loss ; specific apparent power ; r.m.s. value of excitation current ; for the measurement up to peak values of magnetic field strength of 10 000 A/m of : peak value of the magnetic polarization ; peak value of the magnetic field strength. The single sheet tester is applicable to test specimens obtained from electrical sheets and strips of any quality. The magnetic characteristics are determined for a sinusoidal induced voltage, for specified peak values of magnetic polarization and for a specified frequency. The measurements are made at an ambient temperature of 23 °C ± 5 °C on test specimens which have first been demagnetized.

Verfahren zur Messung der magnetischen Eigenschaften von Elektroblech und -band mit Hilfe eines Tafelmessgerätes

Diese Europäische Norm legt die allgemeinen Grundlagen zur Messung der magnetischen Eigenschaften von Elektroblech und -band mit Hilfe eines Tafelmessgerätes fest und nennt die technischen Einzelheiten der Messung des Ummagnetisierungsverlustes und der magnetischen Feldstärke, der Magnetisierungsstromstärke und der spezifischen Scheinleistung.
Diese Europäische Norm ist im Bereich technischer Frequenzen auf folgende Fälle anzuwenden:
a)   kornorientiertes Elektroblech und -band zwischen 1,0 T und 1,8 T zur Messung von:
   Ummagnetisierungsverlust;
   spezifischer Scheinleistung;
   Effektivwert der magnetischen Feldstärke;
bis zu Scheitelwerten der magnetischen Feldstärke von 1 000 A/m zur Messung von:
   Scheitelwert der magnetischen Polarisation;
   Scheitelwert der magnetischen Feldstärke;
b)   nichtkornorientiertes Elektroblech und -band zwischen 0,8 T und 1,5 T zur Messung von:
   Ummagnetisierungsverlust;
   spezifischer Scheinleistung;
   Effektivwert der Magnetisierungsstromstärke;
bis zu Scheitelwerten der magnetischen Feldstärke von 10 000 A/m zur Messung von:
   Scheitelwert der magnetischen Polarisation;
   Scheitelwert der magnetischen Feldstärke.
Das Tafelmessgerät ist anwendbar bei Tafelproben, die man vom Elektroblech und -band jeder Qualität erhält. Die magnetischen Kennwerte werden unter der Bedingung einer sinusförmigen induzierten Spannung für festgelegte Spitzenwerte der magnetischen Polarisation und festgelegte Frequenz bestimmt.
Die Messungen werden bei einer Umgebungstemperatur von 23 °C ± 5 °C an Proben, die vorher abmagneti¬siert wurden, durchgeführt.
ANMERKUNG   In dieser Europäischen Norm wird durchgehend die Größe "magnetische Polarisation" verwendet, wie sie in ! IEC 60050-221" festgelegt ist.

Matériaux magnétiques - Méthodes de mesure des caractéristiques magnétiques des tôles et bandes magnétiques a l'aide de l'essai sur tôle unique

La présente norme européenne définit les principes généraux des mesures des caractéristiques magnétiques à l'aide de l'essai sur tôle unique des tôles et bandes en acier et donne les détails techniques de mesure des pertes totales spécifiques et de l'intensité du champ magnétique du courant magnétisant et de la puissance apparente spécifique.

Magnetni materiali - Metode merjenja magnetnih lastnosti elektropločevin in trakov z merilnikom za posamezne pločevine

General Information

Status
Withdrawn
Publication Date
31-Mar-2007
Withdrawal Date
15-Aug-2016
Technical Committee
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
12-Aug-2016
Due Date
04-Sep-2016
Completion Date
16-Aug-2016

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Verfahren zur Messung der magnetischen Eigenschaften von Elektroblech und -band mit Hilfe eines TafelmessgerätesMatériaux magnétiques - Méthodes de mesure des caractéristiques magnétiques des tôles et bandes magnétiques a l'aide de l'essai sur tôle uniqueMagnetic materials - Methods of measurement of the magnetic properties of electrical sheet and strip by means of a single sheet tester77.140.50SROL]GHONLFlat steel products and semi-products29.030Magnetni materialiMagnetic materialsICS:Ta slovenski standard je istoveten z:EN 10280:2001+A1:2007SIST EN 10280:2001+A1:2007en01-april-2007SIST EN 10280:2001+A1:2007SLOVENSKI
STANDARDSIST EN 10280:20011DGRPHãþD



SIST EN 10280:2001+A1:2007



EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 10280:2001+A1
January 2007 ICS 29.030 Supersedes EN 10280:2001English Version
Magnetic materials - Methods of measurement of the magnetic properties of electrical sheet and strip by means of a single sheet tester
Matériaux magnétiques - Méthodes de mesure des caractéristiques magnétiques des tôles et bandes magnétiques à l'aide de l'essai sur tôle unique
Magnetische Werkstoffe - Verfahren zur Messung der magnetischen Eigenschaften von Elektroblech und -band mit Hilfe eines Tafelmeßgerätes This European Standard was approved by CEN on 6 December 2000 and includes Amendment 1 approved by CEN on 2 December 2006.
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 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 Management Centre has the same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36
B-1050 Brussels © 2007 CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN 10280:2001+A1:2007: ESIST EN 10280:2001+A1:2007



EN 10280:2001+A1:2007 (E)
2 Contents Foreword.3 1 Scope.4 2 Normative references.4 3 General principles.5 3.1 Principle.5 3.2 Test apparatus.5 3.3 Air flux compensation.6 3.4 Test specimen.6 3.5 Power supply.7 4 Determination of the specific total loss.7 4.1 Principle of measurement.7 4.2 Apparatus.7 4.3 Measuring procedure.7 5 Determination of magnetic field strength, excitation current and specific apparent power.9 5.1 Principle of measurement.9 5.2 Apparatus.10 5.3 Measuring procedure.10 5.4 Determination of characteristics.11 5.5 Reproducibility.13 Annex A (normative)
Requirements concerning the manufacture of yokes.17 Annex B (informative)
Calibration of the test apparatus with respect to the Epstein frame.18 !!!!Annex C (informative) Epstein to SST relationship for grain-oriented sheet steel"""".19 Bibliography.23
SIST EN 10280:2001+A1:2007



EN 10280:2001+A1:2007 (E) 3 Foreword This document (EN 10280:2001+A1:2007) has been prepared by Technical Committee ECISS/TC 24 "Electrical steel sheet and strip qualities - Qualities, dimensions, tolerances and specific tests", the secretariat of which is held by DIN. This document shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by July 2007, and conflicting national standards shall be withdrawn at the latest by July 2007. This document includes Amendment 1, approved by CEN on 2006-12-02. The start and finish of text introduced or altered by amendment is indicated in the text by tags ! ". This document is based on IEC 60404-3 !:1992 including its Amendment 1:2002." According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.
SIST EN 10280:2001+A1:2007



EN 10280:2001+A1:2007 (E)
4 1 Scope This European Standard defines the general principles of the measurement of the magnetic properties of electrical sheets and strips by means of a single sheet tester and gives the technical details of the measurement of specific total loss and of magnetic field strength, excitation current and specific apparent power. This European Standard is applicable at power frequencies to : a) grain oriented magnetic sheet and strip :  for the measurement between 1,0 T and 1,8 T of :  specific total loss ;  specific apparent power ;  r.m.s. value of the magnetic field strength ;  for the measurement up to peak values of magnetic field strength of 1 000 A/m of :  peak value of the magnetic polarization ;  peak value of the magnetic field strength ; b) non-oriented magnetic sheet and strip :  for the measurement between 0,8 T and 1,5 T of :  specific total loss ;  specific apparent power ;  r.m.s. value of excitation current ;  for the measurement up to peak values of magnetic field strength of 10 000 A/m of :  peak value of the magnetic polarization ;  peak value of the magnetic field strength. The single sheet tester is applicable to test specimens obtained from electrical sheets and strips of any quality. The magnetic characteristics are determined for a sinusoidal induced voltage, for specified peak values of magnetic polarization and for a specified frequency. The measurements are made at an ambient temperature of 23 °C ± 5 °C on test specimens which have first been demagnetized. NOTE Throughout this European Standard the quantity "magnetic polarization" is used as defined in!IEC 60050-221". 2 Normative references This European Standard incorporates by dated or undated reference, provisions from other publications. These normative references are cited at the appropriate places in the text and the publications are listed hereafter. For dated references, subsequent amendments to or revisions of any of these publications apply to this European Standard only when incorporated in it by amendment or revision. For undated references the latest edition of the publication referred to applies (including amendments). IEC 60404-13, Magnetic materials - Part 13 : Methods of measurement of density, resistivity and stacking factor of electrical steel sheet and strip. SIST EN 10280:2001+A1:2007



EN 10280:2001+A1:2007 (E) 5 3 General principles 3.1 Principle The test specimen comprises a sample of magnetic sheet and is placed inside two windings :  an exterior primary winding (magnetizing winding) ;  an interior secondary winding (voltage winding). The flux closure is made by a magnetic circuit consisting of two identical yokes, the cross-section of which is very large compared with that of the test specimen (see figure 1). To minimize the effects of pressure on the test specimen, the upper yoke shall be provided with a means of suspension which allows part of its weight to be counterbalanced in accordance with 3.2.1. Care shall be taken to ensure that temperature variations are kept below a level likely to produce stress in the test specimen due to thermal expansion or contraction. 3.2 Test apparatus 3.2.1 Yokes Each yoke is in the form of a U made of insulated sheets of grain oriented silicon steel or nickel iron alloy. It shall have a low reluctance and a specific total loss not greater than 1,0 W/kg at 1,5 T and 50 Hz. It shall be manufactured in accordance with the requirements of annex A. In order to reduce the effect of eddy currents and to give a more homogeneous distribution of the flux over the inside of yokes, the latter shall be made of a pair of C-cores or a glued stack of laminations in which case the corners shall have staggered butt joints (see Figure 1). The yoke shall have pole faces having a width of 25 mm ± 1 mm. The two pole faces of each yoke shall be coplanar to within 0,5 mm and the gap between the opposite pole faces of the yokes shall not exceed 0,005 mm at any point. Also, the yokes shall be rigid in order to avoid creating mechanical stresses in the test specimen. The height of each yoke shall be between 90 mm and 150 mm. Each yoke shall have a width of 50+mm500 mm and an inside length of 450 mm ± 1 mm (see Figure 2). NOTE It is recognized that other yoke dimensions can be used provided that the comparability of the results can be demonstrated. There shall be a non-conducting, non-magnetic support between the vertical limbs of the yokes on which the test specimen is placed. This support shall be centred and located in the same plane as the pole faces so that the test specimen is in direct contact with the pole faces without any gap. The upper yoke shall be movable upwards to permit insertion of the test specimen. After insertion the upper yoke shall be realigned accurately with the bottom yoke. The suspension of the upper yoke shall allow part of its weight to be counterbalanced so as to give a force on the test specimen of between 100 N and 200 N. NOTE The square shape of the yoke has been chosen in order to have only one test specimen for non-oriented material. By rotating the test specimen through 90° it is possible to determine the characteristics in the rolling direction and perpendicular to the rolling direction. SIST EN 10280:2001+A1:2007



EN 10280:2001+A1:2007 (E)
6 3.2.2 Windings The primary and secondary windings shall be at least 440 mm in length and shall be wound on a non-conducting, non-magnetic, rectangular former. The dimensions of the former shall be as follows :  length : 445 mm ± 2 mm ;  internal width : 510 mm ± 1 mm ;  internal height : 520mm− mm ;  height : ≤ 15 mm. The primary winding can be made up of :  either five or more coils having identical dimensions and the same number of turns connected in parallel and taking up the whole length (see figure 3). For example, with five coils, each coil can be made up of 400 turns of copper wire 1 mm in diameter, wound in five layers ;  or a single continuous and uniform winding taking up the whole length. For example this winding can be made up of 400 turns of copper wire 1 mm in diameter, wound in one or more layers. The number of turns on the secondary winding will depend on the characteristics of the measuring instruments. 3.3 Air flux compensation Compensation shall be made for the effect of air flux. This can be achieved, for example, by a mutual inductor. The primary winding of the mutual inductor is connected in series with the primary winding of the test apparatus, while the secondary winding of the mutual inductor is connected to the secondary winding of the test apparatus in series opposition. The adjustment of the value of the mutual inductance shall be made so that, when passing an alternating current through the primary windings in the absence of the specimen in the apparatus, the voltage measured between the non-common terminals of the secondary winding shall be no more than 0,1 % of the voltage appearing across the secondary winding of the test apparatus alone. Thus the average value of the rectified voltage induced in the combined secondary windings is proportional to the peak value of the magnetic polarization in the test specimen. 3.4 Test specimen The length of the test specimen shall be not less than 500 mm. Although the part of the specimen situated outside the pole faces has no great influence on the measurement, this part shall be not longer than it is necessary to facilitate insertion and removal of the test specimen. The width of the test specimen shall be as large as possible and at its maximum equal to the width of the yokes. For maximum accuracy, the minimum width shall be not less than 60 % of the width of the yokes. The test specimens shall be cut without the formation of excessive burrs or mechanical distortion. The test specimen shall be plane. When a test specimen is cut, the edge of the parent strip is taken as the reference direction. The following tolerances are allowed for the angle between the direction of rolling and that of cutting :  ± 1° for grain oriented steel sheet ;  ± 5° for non-oriented steel sheet. For non-oriented steel sheet, two specimens shall be cut, one parallel to the direction of rolling and the other perpendicular unless the test specimen is square, in which case one test specimen only is necessary. SIST EN 10280:2001+A1:2007



EN 10280:2001+A1:2007 (E) 7 3.5 Power supply The power supply shall be of low internal impedance and shall be highly stable in terms of voltage and frequency. During the measurement, the voltage and the frequency shall be maintained constant within ± 0,2 %. In addition, the waveform of the secondary induced voltage shall be maintained as sinusoidal as possible. It is preferable to maintain the form factor of the secondary voltage to within ± 1 % of 1,111. This can be achieved by various means, for example by using an electronic feedback amplifier. 4 Determination of the specific total loss 4.1 Principle of measurement The single sheet tester with the test specimen represents an unloaded transformer the total loss of which is measured by the circuit shown in figure 4. 4.2 Apparatus 4.2.1 Voltage measurement 4.2.1.1 Average type voltmeter The secondary rectified voltage of the test apparatus shall be measured by an average type voltmeter. The preferred instrument is a digital voltmeter having an accuracy of ± 0,2 %. NOTE Instruments of this type are usually graduated in average rectified value multiplied by 1,111. The load on the secondary circuit shall be as small as possible. Consequently, the internal resistance of the average type voltmeter should be at least 1 000 Ω/V. 4.2.1.2 R.M.S. voltmeter A voltmeter responsive to r.m.s. values shall be used. The preferred instrument is a digital voltmeter having an accuracy of ± 0,2 %. 4.2.2 Frequency measurement A frequency meter having an accuracy of ± 0,1 % shall be used. 4.2.3 Power measurement The power shall be measured by a wattmeter having an accuracy of ± 0,5 % or better under the power factor and crest factor conditions encountered during the course of this type of measurement. The resistance of the voltage circuit of the wattmeter shall be at least 100 Ω/V for all ranges. If necessary, the losses induced by the wattmeter shall be subtracted from the indicated loss value. The ohmic resistance of the wattmeter voltage circuit shall be at least 5 000 times its reactance, unless the wattmeter is compensated for its reactance. If a current-measuring device is included in the circuit, it shall be short-circuited when the secondary voltage is adjusted and the losses are measured. 4.3 Measuring procedure 4.3.1 Preparation of measurement The length of the test specimen shall be measured with an accuracy of ± 0,1 % and its mass determined within
± 0,1 %. The test specimen shall be loaded and centred on the longitudinal and transverse axes of the test coil, and the partly counterbalanced upper yoke shall be lowered. SIST EN 10280:2001+A1:2007



EN 10280:2001+A1:2007 (E)
8 Before the measurement, the test specimen shall be demagnetized by slowly decreasing an alternating magnetic field starting from well above the value to be measured. 4.3.2 Source setting The source shall be adjusted so that the average value of the secondary rectified voltage is : JARRRNfUˆ4tii22+=
(1) where 2U is the average value of the secondary rectified voltage, in volts ; f is the frequency, in hertz ; iR is the combined resistance of instruments in the secondary circuit, in ohms ; tR is the total resistance of the secondary windings of the test apparatus and mutual inductor, in ohms ; 2N is the number of turns of the secondary winding ; A is the cross-sectional area of the test specimen, in square metres ; Jˆ is the peak value of magnetic polarization, in teslas. The cross-sectional area A is given by the equation : mlmA=
(2) where m is the mass of the test specimen, in kilograms ; l is the length of the test specimen, in metres ; m is the density of the test material determined in accordance with IEC 60404-13, in kilograms per cubic metre. 4.3.3 Measurements 4.3.3.1 The ammeter, if any, in the primary circuit shall be observed to ensure that the current circuit of the wattmeter is not overloaded. The ammeter shall then be short-circuited and the secondary voltage readjusted. After checking the waveform of the secondary voltage, the wattmeter shall be read. The value of the specific total loss shall then be calculated from the equation : ()mi222
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