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eLibrary > BS EN 61331-1:2014 Protective devices against diagnostic medical X-radiation - Determination of attenuation properties of materials >

BS EN 61331-1:2014 Protective devices against diagnostic medical X-radiation - Determination of attenuation properties of materials, 2014

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BS EN 61331-1:2014 Protective devices against diagnostic medical X-radiation - Determination of attenuation properties of materials, 2014

30302304-VOR.pdf [Go to Page]
English [Go to Page]
CONTENTS
FOREWORD
1 Scope
2 Normative references
3 Terms and definitions
4 Methods to determine the attenuation ratio [Go to Page]
4.1 General
4.2 narrow beam condition [Go to Page]
4.2.1 General description
4.2.2 Air kerma rate measurements
4.2.3 Radiation qualities and radiation detector
4.2.4 Signal to noise condition
4.2.5 Attenuation ratio evaluation
4.3 Broad beam condition [Go to Page]
4.3.1 General description
4.3.2 Air kerma rate measurements
4.3.3 Radiation qualities and radiation detector
4.3.4 Signal to noise condition
4.3.5 Attenuation ratio evaluation
4.4 Inverse broad beam condition [Go to Page]
4.4.1 General description
4.4.2 Air kerma rate measurements
4.4.3 Radiation qualities and radiation detector
4.4.4 Signal to noise condition
4.4.5 Attenuation ratio evaluation
4.5 Calculation of the attenuation ratio for photon-emitting radionuclides [Go to Page]
4.5.1 Equation
4.5.2 Decay data
4.5.3 Mass attenuation and mass energy-absorption coefficients
4.5.4 Verification of the mass- attenuation coefficients of the test material
5 Determination of attenuation properties [Go to Page]
5.1 attenuation ratio [Go to Page]
5.1.1 Determination
5.1.2 Indication
5.2 build-up factor [Go to Page]
5.2.1 Determination
5.2.2 Indication
5.3 Attenuation equivalent [Go to Page]
5.3.1 Determination
5.3.2 Indication
5.4 lead equivalent [Go to Page]
5.4.1 Determination
5.4.2 Indication
5.5 lead equivalent class for a specified range of radiation qualities [Go to Page]
5.5.1 Materials
5.5.2 Standard thicknesses
5.5.3 Conditions for assignment to a lead equivalent class
5.5.4 Indication
5.6 Homogeneity [Go to Page]
5.6.1 Determination
5.6.2 Indication
6 Statement of compliance
Annex A (informative) Tables of attenuation ratios, build-up factors and first half-value layers
Bibliography
Index of defined terms used in this International Standard
Figures [Go to Page]
Figure 1 – Narrow beam condition
Figure 2 – broad beam condition
Figure 3 – Inverse broad beam condition
Tables [Go to Page]
Table 1 – Standard radiation qualities for x-ray beams
Table 2 – Standard gamma radiation qualities according to ISO 4037-1
Table A.1 – attenuation ratios FN of lead thicknesses from 0,125 mm to 2 mm calculated for radiation qualities of Table 1 according to the formula given in 4.5.4
Table A.2 – build-up factor B measured for radiation qualities of Table 1 according to the formula given in 5.2.1 for lead thicknesses 0,25 mm, 0,35 mm and 0,50 mm
Table A.3 – attenuation ratios FN of lead thicknesses from 0,125 mm to 7 mm calculated for radiation qualities of Tables 1and 2 according to the formula given in 4.5.4
Table A.4 – First half-value layers in mm Al of radiation qualities of Table 1 as a function of additional lead filters of different thicknesses in the range from 0,125 mm to 2 mm
Table A.5 – First half-value layers in mm Cu of radiation qualities of Table 1 as a function of additional lead filters of different thicknesses in the range from 0,125 mm to 4 mm
Français [Go to Page]
SOMMAIRE
AVANT-PROPOS
1 Domaine d’application
2 Références normatives
3 Termes et définitions
4 Méthodes de détermination de l’indice d’atténuation [Go to Page]
4.1 Généralités
4.2 Condition de faisceau étroit [Go to Page]
4.2.1 Description générale
4.2.2 Mesures du débit de kerma dans l’air
4.2.3 qualités de rayonnement et détecteur de rayonnement
4.2.4 Condition de signal sur bruit
4.2.5 Évaluation de l’indice d’atténuation
4.3 Condition de faisceau large [Go to Page]
4.3.1 Description générale
4.3.2 Mesures du débit de kerma dans l’air
4.3.3 qualités de rayonnement et détecteur de rayonnement
4.3.4 Condition de signal sur bruit
4.3.5 Évaluation de l’indice d’atténuation
4.4 Condition de faisceau large inversé [Go to Page]
4.4.1 Description générale
4.4.2 Mesures du débit de kerma dans l’air
4.4.3 Qualités de rayonnement et détecteur de rayonnement
4.4.4 Condition de signal sur bruit
4.4.5 Évaluation de l’indice d’atténuation
4.5 Calcul de l’indice d’atténuation pour les radionucléides à émission de photons [Go to Page]
4.5.1 Équation
4.5.2 Données de désintégration
4.5.3 Coefficients d’atténuation massique et d’absorption de l’énergie massique
4.5.4 Vérification des coefficients d'atténuation massique du matériau d’essai
5 Détermination des propriétés d’atténuation [Go to Page]
5.1 Indice d’atténuation [Go to Page]
5.1.1 Détermination
5.1.2 Indication
5.2 Facteur d’accumulation [Go to Page]
5.2.1 Détermination
5.2.2 Indication
5.3 Equivalent d'atténuation [Go to Page]
5.3.1 Détermination
5.3.2 Indication
5.4 Équivalent plomb [Go to Page]
5.4.1 Détermination
5.4.2 Indication
5.5 Classe d'équivalent plomb pour une plage spécifiée de qualités de rayonnement [Go to Page]
5.5.1 Matériaux
5.5.2 Épaisseurs normalisées
5.5.3 Conditions d’attribution d’une classe d'équivalent plomb
5.5.4 Indication
5.6 Homogénéité [Go to Page]
5.6.1 Détermination
5.6.2 Indication
6 Déclaration de conformité
Annexe A (informative) Tableaux des indices d’atténuation, des facteurs d’accumulation et des premières couches de demi-atténuation
Bibliographie
Index des termes définis utilisés dans la présente Norme internationale
Figures [Go to Page]
Figure 1 –Condition de faisceau étroit
Figure 2 – condition de faisceau large
Figure 3 –Condition de faisceau large inversé
Tableaux [Go to Page]
Tableau 1 – Qualités de rayonnement normalisées pour les faisceaux a rayon-x
Tableau 2 – Qualités de rayonnement gamma normalisées selon l’ISO 4037-1
Tableau A.1 – indices d’atténuation FN des épaisseurs de plomb comprises entre 0,125 mm et 2 mm calculés pour les qualités de rayonnement du Tableau 1 conformément à la formule indiquée en 4.5.4
Tableau A.2 – facteur d’accumulation B mesuré pour les qualités de rayonnement du Tableau 1 conformément à la formule indiquée en 5.2.1 pour les épaisseursde plomb comprises entre 0,25 mm, 0,35 mm et 0,50 mm
Tableau A.3 – indices d’atténuation FN des épaisseurs de plomb comprises entre 0,125 mm et 7 mm calculés pour les qualités de rayonnement des Tableaux 1 et 2 conformément à la formule indiquée en 4.5.4
Tableau A.4 – Premières couches de demi-atténuation en mm d’aluminium des qualités de rayonnement du Tableau 1 en fonction des filtres en plomb supplémentaires d’épaisseurs différentes dans la plage comprise entre 0,125 mm et 2 mm
Tableau A.5 – Premières couches de demi-atténuation en mm de cuivre des qualités de rayonnement du Tableau 1 en fonction des filtres en plomb supplémentaires d’épaisseurs différentes dans la plage comprise entre 0,125 mm et 4 mm [Go to Page]

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BS EN 61331-1:2014 Protective devices against diagnostic medical X-radiation - Determination of attenuation properties of materials, 2014

⨯To continue with accurate pricing,
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