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eLibrary > BS EN 61788-19:2014 Superconductivity - Mechanical properties measurement. Room temperature tensile test of reacted Nb₃Sn composite superconductors >

BS EN 61788-19:2014 Superconductivity - Mechanical properties measurement. Room temperature tensile test of reacted Nb₃Sn composite superconductors, 2014

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BS EN 61788-19:2014 Superconductivity - Mechanical properties measurement. Room temperature tensile test of reacted Nb₃Sn composite superconductors, 2014

30294348-VOR.pdf [Go to Page]
English [Go to Page]
CONTENTS
FOREWORD
INTRODUCTION
1 Scope
2 Normative references
3 Terms and definitions
4 Principles
5 Apparatus [Go to Page]
5.1 General
5.2 Testing machine
5.3 Extensometer
6 Specimen preparation [Go to Page]
6.1 General
6.2 Length of specimen
6.3 Removing insulation
6.4 Determination of cross-sectional area (S0)
7 Testing conditions [Go to Page]
7.1 Specimen gripping
7.2 Setting of extensometer
7.3 Testing speed
7.4 Test
8 Calculation of results [Go to Page]
8.1 Modulus of elasticity (E)
8.2 0,2 % proof strength (Rp0,2-0 and Rp0,2-U)
9 Uncertainty of measurand
10 Test report [Go to Page]
10.1 Specimen
10.2 Results
10.3 Test conditions
Annex A (informative) Additional information relating to Clauses 1 to 10 [Go to Page]
A.1 Scope
A.2 Extensometer [Go to Page]
A.2.1 Double extensometer
A.2.2 Single extensometer
A.3 Optical extensometers
A.4 Requirements of high resolution extensometers
A.5 Tensile stress Relasticmax and strain Aelasticmax
A.6 Functional fitting of stress-strain curve obtained by single extensometer and 0,2 % proof strength (Rp0,2-F)
A.7 Removing insulation
A.8 Cross-sectional area determination
A.9 Fixing of the reacted Nb3Sn wire to the machine by two gripping techniques
A.10 Tensile strength (Rm)
A.11 Percentage elongation after fracture (Af)
A.12 Relative standard uncertainty
A.13 Determination of modulus of elasticity E0
A.14 Assessment on the reliability of the test equipment
A.15 Reference documents
Annex B (informative) Uncertainty considerations [Go to Page]
B.1 Overview
B.2 Definitions
B.3 Consideration of the uncertainty concept
B.4 Uncertainty evaluation example for TC 90 standards
B.5 Reference documents of Annex B
Annex C (informative) Specific examples related to mechanical tests [Go to Page]
C.1 Overview
C.2 Uncertainty of the modulus of elasticity
C.3 Evaluation of sensitivity coefficients
C.4 Combined standard uncertainties of each variable
C.5 Uncertainty of 0,2 % proof strength Rp0,2
Bibliography
Figures [Go to Page]
Figure 1 – Stress-strain curve and definition of modulus of elasticity and 0,2 % proof strengths for Cu/Nb3Sn wire
Figure A.1 – Light weight ultra small twin type extensometer
Figure A.2 – Low mass averaging double extensometer
Figure A.3 – An example of the extensometer provided with balance weight and vertical specimen axis
Figure A.4 – Double beam laser extensometer
Figure A.5 – Load versus displacement record of a reacted Nb3Sn wire
Figure A.6 – Stress-strain curve of a reacted Nb3Sn wire
Figure A.7 – Two alternatives for the gripping technique.
Figure A.8 – Details of the two alternatives of the wire fixing to the machine
Figure C.1 – Measured stress-strain curve
Figure C.2 – Stress-strain curve
Tables [Go to Page]
Table A.1 – Standard uncertainty value results achieved ondifferent Nb3Sn wires during the international round robin tests
Table A.2 – Results of ANOVA (F-test) for the variations of E0
Table B.1 – Output signals from two nominally identical extensometers
Table B.2 – Mean values of two output signals
Table B.3 – Experimental standard deviations of two output signals
Table B.4 – Standard uncertainties of two output signals
Table B.5 – Coefficient of Variations of two output signals
Table C.1 – Load cell specifications according to manufacturer’s data sheet
Table C.2 – Uncertainties of displacement measurement
Table C.3 – Uncertainties of wire diameter measurement
Table C.4 – Uncertainties of gauge length measurement
Table C.5 – Calculation of stress at 0 % and at 0,1 % strain using the zero offset regression line as determined in Figure C.1 (b)
Table C.6 – Linear regression equations computed for the three shifted linesand for the stress–strain curve in the region where the lines intersect
Table C.7 – Calculation of strain and stress at the intersections of the three shifted lines with the stress–strain curve
Table C.8 – Measured stress versus strain data and the computed stress based on a linear fit to the data in the region of interest
Français [Go to Page]
SOMMAIRE
AVANT-PROPOS
INTRODUCTION
1 Domaine d'application
2 Références normatives
3 Termes et définitions
4 Présentation
5 Appareillage [Go to Page]
5.1 Généralités
5.2 Machine d'essai
5.3 Extensomètre
6 Préparation de l'éprouvette [Go to Page]
6.1 Généralités
6.2 Longueur de l'éprouvette
6.3 Retrait de l'isolation
6.4 Détermination de la section (S0)
7 Conditions d'essai [Go to Page]
7.1 Serrage de l'éprouvette
7.2 Réglage de l'extensomètre
7.3 Vitesse d'essai
7.4 Essai
8 Calcul des résultats [Go to Page]
8.1 Module d'élasticité (E)
8.2 Charge d'épreuve à 0,2 % (Rp0,2-0 et Rp0,2-U)
9 Incertitude du mesurande
10 Rapport d'essai [Go to Page]
10.1 Éprouvette
10.2 Résultats
10.3 Conditions d’essai
Annexe A (informative) Informations supplémentaires concernant les Articles 1 à 10 [Go to Page]
A.1 Domaine d'application
A.2 Extensomètre [Go to Page]
A.2.1 Double extensomètre
A.2.2 Extensomètre simple
A.3 Extensomètre optique
A.4 Exigences relatives à la haute résolution des extensomètres
A.5 Contrainte de traction Relasticmax et déformation Aelasticmax
A.6 L'ajustement de la fonction de la courbe de contrainte-déformation obtenue par un extensomètre simple et une charge d'épreuve à 0,2 % (Rp0,2-F)
A.7 Retrait de l'isolation
A.8 Détermination de la section
A.9 Fixation sur la machine du fil de Nb3Sn mis en réaction par deux techniques d'attache
A.10 Résistance à la traction (Rm)
A.11 Pourcentage d'allongement après fracture (Af)
A.12 Incertitude-type relative
A.13 Détermination du module d'élasticité E0
A.14 Évaluation de la fiabilité de l'équipement d'essai
A.15 Documents de référence
Annexe B (informative) Considérations relatives à l'incertitude [Go to Page]
B.1 Vue d’ensemble
B.2 Définitions
B.3 Considérations relatives au concept d'incertitude
B.4 Exemple d'évaluation d'incertitude pour les normes du CE 90
B.5 Documents de référence de l'Annexe B
Annexe C (informative) Exemples spécifiques relatifs aux essais mécaniques [Go to Page]
C.1 Vue d’ensemble
C.2 Incertitude du module d'élasticité
C.3 Évaluation des coefficients de sensibilité
C.4 Incertitudes-types composées de chaque variable
C.5 Incertitude de la charge d'épreuve à 0,2 %, Rp0,2
Bibliography
Figures [Go to Page]
Figure 1 – Courbe de contrainte-déformation et définition du module d'élasticité et charges d'épreuve à 0,2 % pour un fil Cu/Nb3Sn
Figure A.1 – Extensomètre jumelé ultra compact et léger
Figure A.2 – Double extensomètre calculant la moyenne de masses faibles
Figure A.3 – Exemple d'extensomètre muni d'une masse d'équilibrageet d'un axe d'éprouvette vertical
Figure A.4 – Extensomètre à double faisceau laser
Figure A.5 – Enregistrement de la charge par rapport au déplacementd'un fil de Nb3Sn mis en réaction
Figure A.6 – Courbe de contrainte en fonction de la déformationd'un fil de Nb3Sn mis en réaction
Figure A.7 – Deux techniques alternatives de fixation
Figure A.8 – Détails des deux possibilités de la fixation des fils à la machine
Figure C.1 – Courbe de contrainte mesurée en fonction de la déformation
Figure C.2 – Courbe de contrainte en fonction de la déformation
Tableaux [Go to Page]
Tableau A.1 – Valeurs de l'incertitude-type obtenues sur différents fils de Nb3Snlors des essais interlaboratoires internationaux
Tableau A.2 – Résultats de l'analyse de la variance ANOVA (essai F)pour les variations de E0
Tableau B.1 – Signaux de sortie de deux extensomètres nominalement identiques
Tableau B.2 – Valeurs moyennes de deux signaux de sortie
Tableau B.3 – Écarts-types expérimentaux de deux signaux de sortie
Tableau B.4 - Incertitudes-types de deux signaux de sortie
Tableau B.5 - Coefficient de variation de deux signaux de sortie
Tableau C.1 – Caractéristiques du dynamomètre selon les fichesde caractéristiques du fabricant
Tableau C.2 – Incertitudes de mesure de déplacement
Tableau C.3 – Incertitudes de mesure du diamètre du fil
Tableau C.4 – Incertitudes de mesure de longueur entre repères
Tableau C.5 – Calcul de la contrainte à 0 % et de la déformation à 0,1 % en utilisant la ligne de régression de décalage nul déterminée à la Figure C.1 (b)
Tableau C.6 – Équations de régression linéaire calculées d'après les trois lignes décalées et pour la courbe de contrainte en fonction de la déformation dans la région où les lignes se coupent
Tableau C.7 – Calcul de la déformation et de la contrainte aux intersections des trois lignes décalées avec la courbe contrainte-déformation
Tableau C.8 – Données mesurées de contrainte en fonction de la déformationet contrainte calculée basée sur un ajustement linéaire aux donnéesdans la région d'intérêt [Go to Page]

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BS EN 61788-19:2014 Superconductivity - Mechanical properties measurement. Room temperature tensile test of reacted Nb3Sn composite superconductors, 2014

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BS EN 61788-19:2014 Superconductivity - Mechanical properties measurement. Room temperature tensile test of reacted Nb₃Sn composite superconductors, 2014