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本文(ASTM C1871-2018 Standard Test Method for Determination of Uranium Isotopic Composition by the Double Spike Method Using a Thermal Ionization Mass Spectrometer《用热电离质谱计用双尖峰法测定铀同位素组成的.pdf)为本站会员(postpastor181)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM C1871-2018 Standard Test Method for Determination of Uranium Isotopic Composition by the Double Spike Method Using a Thermal Ionization Mass Spectrometer《用热电离质谱计用双尖峰法测定铀同位素组成的.pdf

1、Designation: C1871 18Standard Test Method forDetermination of Uranium Isotopic Composition by theDouble Spike Method Using a Thermal Ionization MassSpectrometer1This standard is issued under the fixed designation C1871; the number immediately following the designation indicates the year oforiginal a

2、doption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method describes the determination of theisotope amount rat

3、ios of uranium material as nitrate solutionsby the double spike (DS) method using a thermal ionizationmass spectrometer (TIMS) instrument.1.2 The analytical performance in the determination of the235U/238U major isotope amount ratio by the DS method is fiveto ten times better in terms of the interna

4、l and externalreproducibility compared to the (“classical”) total evaporation(TE) method as described in Test Method C1672 and the“modified total evaporation” (MTE) as described in TestMethod C1832. This is due to the use of an internal rather thanexternal mass fractionation correction by using a do

5、uble spikematerial with a known or certified233U/236U isotope ratio,which is mixed with the sample prior to the measurement,either during the sample preparation or directly on the TIMSfilament.1.3 The DS method cannot be applied for the determinationof the236U/238U minor isotope amount ratio, and is

6、 also notrecommended for the determination of the234U/238U minorisotope amount ratio.1.4 In case the uranium amount concentration of the doublespike is known or certified, the uranium amount concentrationof the sample can be determined using the isotope dilutionmass spectrometry (IDMS) method as des

7、cribed in TestMethod C1672, by blending the sample gravimetrically withthe double spike and performing a DS measurement.1.5 An external mass fractionation correction by measure-ments of a certified reference material loaded on differentfilaments and measured in the same measurement sequence, asrecom

8、mended for TE and required for MTE measurements, isnot necessary for the DS method. However, for quality control(QC) purposes it is recommended to perform DS measure-ments of low enriched or natural uranium isotopic referencematerials on a regular basis.1.6 The DS method can only be applied to urani

9、um sampleswith relative isotope abundances233U/U and236U/U below105, the DS method is therefore mainly used for low enrichedor close to natural uranium samples.1.7 UnitsThe values stated in SI units are to be regardedas the standard. When no SI units are provided, the values arefor information only.

10、1.8 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety, health, and environmental practices and deter-mine the applicability of regulatory limitations prior to use

11、.1.9 This international standard was developed in accor-dance with internationally recognized principles on standard-ization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recom-mendations issued by the World Trade Organization TechnicalBarriers t

12、o Trade (TBT) Committee.2. Referenced Documents2.1 ASTM Standards:2C753 Specification for Nuclear-Grade, Sinterable UraniumDioxide PowderC776 Specification for Sintered Uranium Dioxide Pellets forLight Water ReactorsC787 Specification for Uranium Hexafluoride for Enrich-mentC833 Specification for Si

13、ntered (Uranium-Plutonium) Diox-ide Pellets for Light Water ReactorsC859 Terminology Relating to Nuclear MaterialsC967 Specification for Uranium Ore ConcentrateC996 Specification for Uranium Hexafluoride Enriched toLess Than 5 %235U1This test method is under the jurisdiction ofASTM Committee C26 on

14、NuclearFuel Cycle and is the direct responsibility of Subcommittee C26.05 on Methods ofTest.Current edition approved Feb. 1, 2018. Published February 2018. DOI: 10.1520/C1871-18.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org.

15、For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United StatesThis international standard was developed in accordance with internati

16、onally recognized principles on standardization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.1C1008 Specification for Sintered (Uranium-Plutonium)

17、DioxidePelletsFast Reactor Fuel (Withdrawn 2014)3C1068 Guide for Qualification of Measurement Methods bya Laboratory Within the Nuclear IndustryC1128 Guide for Preparation of Working Reference Materi-als for Use in Analysis of Nuclear Fuel Cycle MaterialsC1156 Guide for Establishing Calibration for

18、a Measure-ment Method Used to Analyze Nuclear Fuel Cycle Mate-rialsC1347 Practice for Preparation and Dissolution of UraniumMaterials for AnalysisC1411 Practice for The Ion Exchange Separation of Ura-nium and Plutonium Prior to Isotopic AnalysisC1672 Test Method for Determination of Uranium or Pluto

19、-nium Isotopic Composition or Concentration by the TotalEvaporation Method Using a Thermal Ionization MassSpectrometerC1832 Test Method for Determination of Uranium IsotopicComposition by the Modified Total Evaporation (MTE)Method Using a Thermal Ionization Mass SpectrometerD1193 Specification for R

20、eagent WaterE2586 Practice for Calculating and Using Basic StatisticsE2655 Guide for Reporting Uncertainty of Test Results andUse of the Term Measurement Uncertainty in ASTM TestMethods3. Terminology3.1 Terminology C859 contains terms, definitions, descrip-tions of terms, nomenclature, and explanati

21、ons of acronymsand symbols specifically associated with standards under thejurisdiction of Committee C26 on Nuclear Fuel Cycle.3.2 Definitions:3.2.1 abundance sensitivity, nin isotope amount ratiomeasurements, the ratio of the measured intensity of an ionbeam at a mass, m, to the measured intensity

22、from the sameisotope measured at one mass unit difference (for example, m6 1).3.2.1.1 DiscussionAbundance sensitivity is a measure ofthe magnitude of the peak tailing correction. For measuringuranium on thermal ionization mass spectrometer (TIMS) andinductively coupled plasma mass spectrometry (ICP-

23、MS)instruments, the abundance sensitivity is typically calculated asthe ratio of the measured signal intensities at masses 237 and238 using a suitable uranium sample.3.2.2 modified total evaporation, MTE, nanalyticalmethod for determination of isotope amount ratios of uranium,as described in Test Me

24、thod C1832.3.2.3 total evaporation, TE, nanalytical method for deter-mination of isotope amount ratios of uranium or plutonium, asdescribed in Test Method C1672, also called “classical” totalevaporation in this test method.3.2.4 turret, nholder for sample filaments.3.2.4.1 DiscussionAlternate names

25、for turret are carousel,magazine, and wheel.3.3 Acronyms:3.3.1 CRMcertified reference material3.3.2 DSdouble spike3.3.3 DUdepleted uranium3.3.4 EUEuropean Union3.3.5 FARFaraday Cup3.3.6 HEUhigh enriched uranium3.3.7 IAEAInternational Atomic Energy Agency3.3.8 ICPMSinductively coupled mass spectromet

26、ry3.3.9 IRMMInstitute for Reference Materials and Mea-surements (since 1 July 2016 called JRC-Geel, the only unitworking with nuclear materials at JRC-Geel is JRC-G.2)3.3.10 ITUInstitute for Transuranium Elements (since 1July 2016 called JRC-Karlsruhe, the only unit involved withthermal ionization m

27、ass spectrometry measurements of nuclearmaterials at JRC-Karlsruhe is JRC-G.II.6)3.3.11 JRCJoint Research Centre3.3.12 LEUlow enriched uranium3.3.13 MTEmodified total evaporation3.3.14 NBLNew Brunswick Laboratory (since 15 May2016 called NBL-Program Office)3.3.15 NMLNuclear Material Laboratory (part

28、 of theIAEA)3.3.16 QCquality control3.3.17 RSDrelative standard deviationSD (see below)divided by the mean value of the observations in repeatedsampling.3.3.18 RSErelative standard errorSE (see below) di-vided by the mean value of the observations in repeatedsampling.3.3.19 SDstandard deviationaccor

29、ding to PracticeE2586, 3.1.30: The square root of the sum of the squareddeviations of the observed values in the sample divided by thesample size minus 1.3.3.20 SEstandard erroraccording to Practice E2586,3.1.29: Standard deviation of the population of values of asample statistic (that is, the mean

30、value) in repeatedmeasurements, or an estimate of it.3.3.20.1 DiscussionAccording to Practice E2586, 3.1.30:If the standard error (SE, see above) of a statistic is estimated,it will itself be a statistic with some variance that depends onthe sample size, that is, the number of observed values in the

31、sample (Practice E2586, 3.1.26).3.3.20.2 DiscussionAccording to Practice E2655, 5.8.4.1:From statistical theory, a 95 % confidence interval for the meanof a normal distribution, given n independent observations x1,x2, ., xndrawn from the distribution, is x 6 tSD/n, wherex is the sample mean, SD is t

32、he standard deviation of theobservations (see above), and t is the 0.975 percentile of theStudents t distribution with n-1 degrees of freedom. BecauseStudents t distribution approaches the normal as n increases,the value of t approaches 1.96 as n increases. This is the basisfor using the (coverage)

33、factor 2 for expanded uncertainty. The3The last approved version of this historical standard is referenced onwww.astm.org.C1871 182standard error (SE) of the mean value of a series of nindependent repeated measurements can be derived from thatby usingt=1,sothestandard error (SE) is given by SD / n.3

34、.3.21 TIMSthermal ionization mass spectrometry3.3.22 WRMworking reference material4. Summary of Test Method4.1 The double spike method has been developed with theintention to improve the precision and decrease the uncertain-ties for235U/238U major isotope ratio measurements comparedto the known meth

35、ods such as the “classical” total evaporationtechnique (1-4),4also described in Test Method C1672, and themodified total evaporation technique (5 and 6), also describedin Test Method C1832. For the double spike method the massfractionation correction for the235U/238U ratio is performedinternally thr

36、oughout the measurement rather than externally,by using the mass fractionation observed for a double spikematerial with a known or certified233U/236U isotope ratio (alsospanning three mass units), which is mixed with the sampleprior to the measurement, either during the sample preparationor directly

37、 on the TIMS filament. If necessary, uranium isseparated from plutonium and other elements (to eliminateisobaric interferences) by selective extraction, anion exchange(see Practice C1411), or extraction chromatography. The puri-fied uranium fraction as nitrate solution is loaded onto anevaporation f

38、ilament (made of metals such as rhenium, zone-refined rhenium, or tungsten with high evaporationtemperature), and blended with an appropriate amount ofdouble spike solution, and converted to an oxide by controlledheating of the filament under atmospheric conditions. In caseonly the235U/238U ratio of

39、 the sample has to be determined, itis recommended to mix the sample with the double spikeduring the loading process on the filament. In case the uraniumamount concentration of the sample has to be determined, thesample solution has to be blended gravimetrically with thedouble spike solution prior t

40、o filament loading, for whichweighable amounts have to be used.4.2 The sample amount to be loaded for DS analyses iswithin a range of about 4 to 6 g to achieve ion beam signalsof about 20 to 30 V for the major isotope238U for DU, NU, andLEU samples.4.3 The235U/238U isotope amount ratios are correcte

41、d formass fractionation for each integration step individually. Thisis accomplished in an internal manner, the magnitude of themass fractionation is calculated from the measured massfractionation of the233U/236U ratio. The peak tailing contribu-tions are determined at two mass positions, 0.5 mass un

42、itsbelow and 0.5 mass units above the isotope masses of interest.4.4 For the correction of isobaric interferences, a separatemeasurement of the isotopic composition of the (unspiked)sample is required, unless this information is already available.This measurement can be performed using the TE or MTE

43、methods (Test Methods C1672 and C1832, respectively).5. Significance and Use5.1 Uranium material is used as a fuel in certain types ofnuclear reactors. To be suitable for use as nuclear fuel, thestarting material shall meet certain specifications such as thosedescribed in Specifications C753, C776,

44、C787, C833, C967,C996, and C1008, or as specified by the purchaser. The235U/238U isotope amount ratios and the amount content ofuranium material can be measured by mass spectrometryfollowing this test method to ensure that they meet thespecification.5.2 The double spike method has been used for stud

45、ies ofuranium fractionation effects in isotope geochemistry andcosmochemistry, for uranium source attribution in nuclearforensics and for investigation of conversion or samplingprocesses in nuclear industry and nuclear safeguards (7-11).Most recently, the double spike method has been used for theval

46、idation of the Cristallini sampling method of UF6(12 and13). The double spike method can be used for a wide range ofsample sizes even in samples containing as low as 50 g ofuranium. The concentration of the loading solution for the DSmethod has to be in the range of 1 to 6 mg/g to allow a sampleload

47、ing of 4 to 6 g of uranium. A minimum loading of 4 guranium per filament is recommended.5.3 The measurement of236U/238U ratios using this methodis not possible due to the large isobaric interference from the236U ion beam of the double spike onto the236U ion beam fromthe sample (50.000 times for clos

48、e to natural material, forexample, like IRMM-184).5.4 The application of the double spike method for mea-surements of235U/238U ratio is limited by the isobaric inter-ference between the236U from the double spike material andthe236U contained in the sample. As a consequence, themethod is not suitable

49、 for samples which contain significantamounts of236U due to prior neutron capture from235Uinthepredecessor materials. For samples with236U/238U ratioshigher than about 106, the double spike method should beapplied with care for the isobaric correction.5.5 The measurement of234U/238U ratios using this methodis very limited in the analytical performance due to the isobaricinterference of the234U from the double spike with the234Ufrom the sample (range from 5 to 15 %). The correctionalgorithms are presented in 14.3, but statements for prec

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