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eLibrary > BS EN 60317-0-1:2014 Specifications for particular types of winding wires - General requirements. Enamelled round copper wire >

BS EN 60317-0-1:2014 Specifications for particular types of winding wires - General requirements. Enamelled round copper wire, 2014

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BS EN 60317-0-1:2014 Specifications for particular types of winding wires - General requirements. Enamelled round copper wire, 2014

30291835-VOR.pdf [Go to Page]
English [Go to Page]
CONTENTS
FOREWORD
INTRODUCTION
1 Scope
2 Normative references
3 Terms, definitions, general notes and appearance [Go to Page]
3.1 Terms and definitions
3.2 General notes [Go to Page]
3.2.1 Methods of test
3.2.2 Winding wire
3.3 Appearance
4 Dimensions [Go to Page]
4.1 Conductor diameter
4.2 Out of roundness of conductor (nominal conductor diameters over 0,063 mm)
4.3 Minimum increase in diameter due to the insulation and the bonding layer (nominal conductor diameters over 0,063 mm) [Go to Page]
4.3.1 Enamelled wires without a bonding layer
4.3.2 Enamelled wires with a bonding layer
4.3.3 Intermediate nominal conductor diameters
4.4 Maximum overall diameter [Go to Page]
4.4.1 Enamelled wires without a bonding layer
4.4.2 Enamelled wires with a bonding layer
5 Electrical resistance
6 Elongation
7 Springiness [Go to Page]
7.1 Nominal conductor diameters from 0,080 mm up to and including 1,600 mm
7.2 Nominal conductor diameters over 1,600 mm
8 Flexibility and adherence [Go to Page]
8.1 Mandrel winding test (nominal conductor diameters up to and including 1,600 mm)
8.2 Stretching test (nominal conductor diameters over 1,600 mm)
8.3 Jerk test (nominal conductor diameters up to and including 1,000 mm)
8.4 Peel test (nominal conductor diameters over 1,000 mm)
9 Heat shock [Go to Page]
9.1 Nominal conductor diameters up to and including 1,600 mm
9.2 Nominal conductor diameters over 1,600 mm
10 Cut-through
11 Resistance to abrasion
12 Resistance to solvents
13 Breakdown voltage [Go to Page]
13.1 General
13.2 Nominal conductor diameters up to and including 0,100 mm
13.3 Nominal conductor diameters over 0,100 mm up to and including 2,500 mm
13.4 Nominal conductor diameters over 2,500 mm
14 Continuity of insulation (nominal conductor diameters up to and including 1,600 mm)
15 Temperature index
16 Resistance to refrigerants
17 Solderability
18 Heat or solvent bonding
19 Dielectric dissipation factor
20 Resistance to transformer oil
21 Loss of mass
23 Pin hole test
30 Packaging
Annex A (informative) Dimensions for intermediate nominal conductor diameters (R 40)
Annex B (informative) Method for the calculation of linear resistance
Annex C (informative) Resistance
Bibliography
Tables [Go to Page]
Table 1 – Dimensions of enamelled wires (R 20) –Preferred nominal conductor diameters (1 of 2)
Table 2 – Dimensions of enamelled wires with a bonding layer (R 20) – Preferred nominal conductor diameters (1 of 2)
Table 3 – Electrical resistance
Table 4 – Elongation
Table 5 – Springiness
Table 6 – Mandrel winding
Table 7 – Heat shock
Table 8 – Breakdown voltage – Preferred nominal conductor diameters (R 20)(0,018 mm up to and including 0,100 mm)
Table 9 – Breakdown voltage – Intermediate nominal conductor diameters (R 40)(0,019 mm up to and including 0,095 mm)
Table 10 – Breakdown voltage – Preferred nominal conductor diameters (R 20)(0,112 mm up to and including 2,500 mm)
Table 11 – Breakdown voltage – Intermediate nominal conductor diameters (R 40)(0,106 mm up to and including 0,950 mm)
Table 12 – Breakdown voltage – Nominal conductor diameters over 2,500 mm
Table 13 – Continuity of insulation
Table 14 – Maximum number of pin holes
Table A.1 – Dimensions of enamelled wires (R 40) –Intermediate nominal conductor diameters (1 of 2)
Table A.2 – Dimensions of enamelled wires with a bonding layer (R 40) –Intermediate nominal conductor diameters (1 of 2)
Table B.1 – Ratios
Table C.1 – Electrical resistances – Nominal conductor diameters over 0,063 mm up to and including 1,000 mm (1 of 2)
Français [Go to Page]
SOMMAIRE
AVANT-PROPOS
INTRODUCTION
1 Domaine d’application
2 Références normatives
3 Termes, définitions, notes générales et aspect [Go to Page]
3.1 Termes et définitions
3.2 Notes générales [Go to Page]
3.2.1 Méthodes d'essai
3.2.2 Fil de bobinage
3.3 Aspect
4 Dimensions [Go to Page]
4.1 Diamètre du conducteur
4.2 Faux-rond du conducteur (diamètres nominaux des conducteurs supérieurs à 0,063 mm)
4.3 Accroissement minimal de diamètre dû à l'isolant et à la couche adhérente (diamètres nominaux des conducteurs supérieurs à 0,063 mm) [Go to Page]
4.3.1 Fils émaillés sans couche adhérente
4.3.2 Fils émaillés avec une couche adhérente
4.3.3 Diamètres nominaux intermédiaires des conducteurs
4.4 Diamètre extérieur maximal [Go to Page]
4.4.1 Fils émaillés sans couche adhérente
4.4.2 Fils émaillés avec une couche adhérente
5 Résistance électrique
6 Allongement
7 Effet de ressort [Go to Page]
7.1 Diamètres nominaux des conducteurs au moins égaux à 0,080 mm et inférieurs ou égaux à 1,600 mm
7.2 Diamètres nominaux des conducteurs supérieurs à 1,600 mm
8 Souplesse et adhérence [Go to Page]
8.1 Essai d'enroulement sur mandrin (diamètres nominaux des conducteurs jusques et y compris 1,600 mm)
8.2 Essai d'allongement (diamètres nominaux des conducteurs supérieurs à 1,600 mm)
8.3 Essai de traction brusque (diamètres nominaux des conducteurs jusques et y compris 1,000 mm)
8.4 Essai de décollement (diamètres nominaux des conducteurs supérieurs à 1,000 mm)
9 Choc thermique [Go to Page]
9.1 Diamètres nominaux des conducteurs jusques et y compris 1,600 mm
9.2 Diamètres nominaux des conducteurs supérieurs à 1,600 mm
10 Thermoplasticité
11 Résistance à l’abrasion
12 Résistance aux solvants
13 Tension de claquage [Go to Page]
13.1 Généralités
13.2 Diamètres nominaux des conducteurs jusques et y compris 0,100 mm
13.3 Diamètres nominaux des conducteurs supérieurs à 0,100 mm et jusques et y compris 2,500 mm
13.4 Diamètres nominaux des conducteurs supérieurs à 2,500 mm
14 Continuité de l'isolant (diamètres nominaux des conducteurs jusques et y compris 1,600 mm)
15 Indice de température
16 Résistance aux réfrigérants
17 Brasabilité
18 Adhérence par chaleur ou par solvant
19 Facteur de dissipation diélectrique
20 Résistance à l'huile de transformateur
21 Perte de masse
23 Détection des microfissures en immersion
30 Conditionnement
Annexe A (informative) Dimensions pour les diamètres nominaux intermédiaires des conducteurs (R 40)
Annexe B (informative) Méthode pour le calcul de la résistance linéique
Annexe C (informative) Résistance
Bibliographie
Tableaux [Go to Page]
Tableau 1 – Dimensions pour les fils émaillés (R 20) –Diamètres nominaux préférentiels des conducteurs (1 sur 2)
Tableau 2 – Dimensions pour les fils émaillés avec une couche adhérente (R 20)– Diamètres nominaux préférentiels des conducteurs (1 sur 2)
Tableau 3 – Résistances électriques
Tableau 4 – Allongement
Tableau 5 – Effet de ressort (1 sur 2)
Tableau 6 – Enroulement sur mandrin
Tableau 7 – Choc thermique
Tableau 8 – Tension de claquage – Diamètres nominaux préférentiels des conducteurs (R 20) (0,018 mm jusqu’à 0,100 mm compris)
Tableau 9 – Tension de claquage – Diamètres nominaux intermédiaires des conducteurs (R 40) (0,019 mm jusqu’à 0,095 mm compris)
Tableau 10 – Tension de claquage – Diamètres nominaux préférentiels des conducteurs (R 20) (0,112 mm jusqu’à 2,500 mm compris)
Tableau 11 – Tension de claquage – Diamètres nominaux intermédiaires des conducteurs (R 40) (0,106 mm jusqu’à 0,950 mm compris)
Tableau 12 – Tension de claquage –Diamètres nominaux des conducteurs supérieurs à 2,500 mm
Tableau 13 – Continuité de l'isolant
Tableau 14 – Nombre maximal de microfissures
Tableau A.1 – Dimensions pour les fils émaillés (R 40) –Diamètres nominaux intermédiaires des conducteurs (1 sur 2)
Tableau A.2 – Dimensions pour les fils émaillés avec une couche adhérente (R 40) – Diamètres nominaux intermédiaires des conducteurs (1 sur 2)
Tableau B.1 – Rapports
Tableau C.1 – Résistances électriques– Diamètres nominauxdes conducteurs compris entre 0,063 mm et 1,000 mm (1 sur 2) [Go to Page]

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BS EN 60317-0-1:2014 Specifications for particular types of winding wires - General requirements. Enamelled round copper wire, 2014

⨯To continue with accurate pricing,
please select your company type below: