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Standard Test Method for Measuring Fast-Neutron Reaction Rates by Radioactivation of Copper
Automatische name übersetzung:
Standard Test Methode zur Messung Schnellneutronenreaktionsgeschwindigkeiten von Radioaktivierungs von Kupfer
NORM herausgegeben am 1.6.2011
Bezeichnung normen: ASTM E523-11
Anmerkung: UNGÜLTIG
Ausgabedatum normen: 1.6.2011
SKU: NS-47089
Zahl der Seiten: 4
Gewicht ca.: 12 g (0.03 Pfund)
Land: Amerikanische technische Norm
Kategorie: Technische Normen ASTM
Keywords:
activation, activation reaction, copper, cross section, dosimetry, fast-neutron monitor, neutron metrology, pressure vessel surveillance, reaction rate, Fast neutron flux/fluence, Copper, Neutron activation reactions, Radioactivation--fast neutron flux, Threshold detectors--5 MeV, Titanium (Ti)/alloys, ICS Number Code 17.240 (Radiation measurements), 27.120.30 (Fissile materials and nuclear fuel technology)
Significance and Use | ||||||||||||||
Refer to Guide E844 for the selection, irradiation, and quality control of neutron dosimeters. Refer to Practice E261 for a general discussion of the measurement of fast neutron fluence rate with threshold detectors. The general shape of the 63Cu(n,α)60Co cross section is also shown in Fig. 1 (3, 4) along with a comparison to the current experimental databse (5). This figure is for illustrative purposes only to indicate the range of response of the 63Cu(n,α) reaction. Refer to Guide E1018 for descriptions of recommended tabulated dosimetry cross sections. Note 1—The cross section appropriate for use under this standard is ENDF/B-VI release 8 library since it contains a covariance matrix. The ENDF/B-VII library has been released, but it does not contain a covariance matrix for this reaction. For dosimetry applications, an uncertainty metric expressed as a covariance matrix is required. See Guide E1018. The chief advantages of copper for measuring fast-neutron fluence rate are that it has good strength, is easily fabricated, has excellent corrosion resistance, has a melting temperature of 1083°C, and can be obtained pure. The half-life of 60Co is long and its decay scheme is simple and well known. The disadvantages of copper for measuring fast neutron fluence rate are the high reaction apparent threshold of 5 MeV, the possible interference from cobalt impurity (>1 μg/g), the reported possible thermal component of the (n,α) reaction, and the possibly significant cross sections for thermal neutrons for 63Cu and 60Co (that is 4.50 and 2.0 barns, respectively),(6) which will require burnout corrections at high fluences. |
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1. Scope | ||||||||||||||
1.1 This test method covers procedures
for measuring reaction rates by the activation reaction
63Cu(n,α)60Co.
The cross section for 60Co produced in this reaction
increases rapidly with neutrons having energies greater than about
5 MeV. 60Co decays with a half-life of 1925.27 days
(±0.29 days)(1) and emits two gamma rays having energies of
1.1732278 and 1.332492 MeV (1). The
isotopic content of natural copper is 69.17 % 63Cu and
30.83 % 65Cu (2). The neutron
reaction, 1.2 With suitable techniques, fission-neutron fluence rates above 109 cm−2·s−1 can be determined. The 63Cu(n,α)60Co reaction can be used to determine fast-neutron fluences for irradiation times up to about 15 years (for longer irradiations, see Practice E261). 1.3 Detailed procedures for other fast-neutron detectors are referenced in Practice E261. 1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use. |
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2. Referenced Documents | ||||||||||||||
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Historisch
1.1.2010
Historisch
1.6.2012
Historisch
1.6.2010
Historisch
1.3.2010
Historisch
1.6.2009
Historisch
1.1.2013
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