Standard Test Method for Measuring Fast-Neutron Reaction Rates by Radioactivation of Nickel

SCOPE
1.1 This test method covers procedures for measuring reaction rates by the activation reaction  58Ni(n,p)  58Co.
1.2 This activation reaction is useful for measuring neutrons with energies above approximately 2.1 MeV and for irradiation times up to about 200 days in the absence of high thermal neutron fluence rates (for longer irradiations, see Practice E 261).
1.3 With suitable techniques fission-neutron fluence rates densities above 107  cm2s 1 can be determined.
1.4 Detailed procedures for other fast-neutron detectors are referenced in Practice E 261.
1.5 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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Publication Date
09-Jun-2002
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ASTM E264-02 - Standard Test Method for Measuring Fast-Neutron Reaction Rates by Radioactivation of Nickel
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NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information
Designation:E264–02
Standard Test Method for
Measuring Fast-Neutron Reaction Rates by Radioactivation
1
of Nickel
This standard is issued under the fixed designation E264; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.A
superscript epsilon (e) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the Department of Defense.
1. Scope 3. Terminology
1.1 This test method covers procedures for measuring reac- 3.1 Definitions:
58 58
tion rates by the activation reaction Ni(n,p) Co. 3.1.1 Refer to Terminology E170.
1.2 Thisactivationreactionisusefulformeasuringneutrons
4. Summary of Test Method
withenergiesaboveapproximately2.1MeVandforirradiation
times up to about 200 days in the absence of high thermal 4.1 High-purity nickel is irradiated in a neutron field,
58 58 58
thereby producing radioactive Co from the Ni(n,p) Co
neutron fluence rates (for longer irradiations, see Practice
E261). activation reaction.
4.2 The gamma rays emitted by the radioactive decay of
1.3 With suitable techniques fission-neutron fluence rates
7 −2 −1 58
densities above 10 cm ·s can be determined. Co are counted in accordance with Test Methods E181 and
the reaction rate, as defined by Practice E261, is calculated
1.4 Detailed procedures for other fast-neutron detectors are
referenced in Practice E261. from the decay rate and irradiation conditions.
4.3 The neutron fluence rate above about 2.1 MeVcan then
1.5 This standard does not purport to address all of the
safety concerns, if any, associated with its use. It is the be calculated from the spectral-weighted neutron activation
cross section as defined by Practice E261.
responsibility of the user of this standard to establish appro-
priate safety and health practices and determine the applica-
5. Significance and Use
bility of regulatory limitations prior to use.
5.1 Refer to Guide E844 for the selection, irradiation, and
2. Referenced Documents
quality control of neutron dosimeters.
5.2 Refer to Practice E261 for a general discussion of the
2.1 ASTM Standards:
determination of fast-neutron fluence rate with threshold de-
E170 Terminology Relating to Radiation Measurements
2
and Dosimetry tectors.
5.3 Pure nickel in the form of foil or wire is readily
E181 Test Methods for Detector Calibration and Analysis
2
of Radionuclides available, and easily handled.
58
5.4 Co has a half-life of 70.86 days and emits a gamma
E261 Practice for Determining Neutron Fluence Rate, Flu-
3
2
ence, and Spectra by Radioactivation Techniques ray with an energy of 0.8107593-MeV.
65 57
5.5 Competing activities Ni(2.5172 h) and Ni(35.60 h)
E844 Guide for Sensor Set Design and Irradiation for
64 65 58 57
2
Reactor Surveillance, E706 (IIC) areformedbythereactions Ni(n,g) Ni,and Ni(n,2n) Ni,
respectively.
E944 Guide for Application of Neutron Spectrum Adjust-
58m
2
ment Methods in Reactor Surveillance, E706 (IIA) 5.6 Asecond9.04–hisomer, Co,isformedthatdecaysto
58 58 58m
70.82-day Co. Loss of Co and Co by thermal-neutron
E1005 TestMethodforApplicationandAnalysisofRadio-
metric Monitors for Reactor Vessel Surveillance, E706 burnout will occur in environments having thermal fluence
12 −2 −1 58 59
2
rates of 3 310 cm ·s and above. The Co(n,g) Co and
(IIIA)
59
E1018 Guide for Application of ASTM Evaluated Cross 58mCo(n,g) Co cross sections have been measured at 1650
2
Section Data File, Matrix E706 (IIB)
3
Evaluated Nuclear Structure Data File (ENSDF), a computer file of evaluated
1
ThistestmethodisunderthejurisdictionofASTMCommitteeE10onNuclear nuclear structure and radioactive decay data, which is maintained by the National
Technology and Applications and is the direct responsibility of Subcommittee Nuclear Data Center (NNDC), Brookhaven National Laboratory (BNL), on behalf
E10.05 on Nuclear Radiation Metrology. oftheInternationalNetworkforNuclearStructureDataEvaluation,whichfunctions
Current edition approved June 10, 2002. Published September 2002. Originally under the auspices of the Nuclear Data Section of the InternationalAtomic Energy
published as E264–65T. Last edition E264–92(1996). Agency (IAEA).The URLis http;//www.nndc.bnl.gov/nndc/ensdf.The data quoted
2
Annual Book of ASTM Standards, Vol 12.02. here comes from the database as of January 1, 2002.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
1

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E264–02
5
4
and 1.4 310 barns, respectively. Burnout correction factors, Section 9, and adjust the sample size and irradiation time so
58
R,areplottedasafunctionoftimeforseveralthermalfluxesin that the Co may be counted
...

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