ASTM C1220-2010 Standard Test Method for Static Leaching of Monolithic Waste Forms for Disposal of Radioactive Waste《供进行放射性废物处理的整块废物的静力浸出的标准试验方法》.pdf

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1、Designation: C1220 10Standard Test Method forStatic Leaching of Monolithic Waste Forms for Disposal ofRadioactive Waste1This standard is issued under the fixed designation C1220; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the

2、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 provides a measure of the chemicaldurability of a simulated or radioactive monolithic waste f

3、orm,such as a glass, ceramic, cement (grout), or cermet, in a testsolution at temperatures 0.5 g/mL, repeat steps6.5.8-6.5.19.6.5.21 If the Fis still 0.5 g/mL after performing steps6.5.8-6.5.19 twice, repeat steps 6.5.1-6.5.19.6.5.22 If the Fconcentration is 1ppm is detected for stainless steel vess

4、els, repeat steps 6.10.2-6.10.8.6.10.10 If three repetitions of steps 6.10.2-6.10.8 do notresult in a pH within the range of 5.0 to 7.0, radioactivity belowdetection, and Si 1 ppm for stainless steel vessels, then repeatthe cleaning starting at step 6.10.1.6.10.11 Dry vessels, lids, and gaskets at 9

5、0 6 2C for aminimum of 16 h and store in a clean environment untilneeded.6.11 Cleaning Solution BottlesSolution bottles that willbe used to contain analytical samples should be cleaned beforeuse. Clean solution bottles using steps 6.11.1-6.11.3.6.11.1 Rinse bottles three times with a dilute nitric a

6、cidsolution (2 wt %). For each rinse, fill bottle to about 10 %bottle volume, place cap on bottle, and shake to rinse allsurfaces. Dispose of solution.6.11.2 Rinse bottles three times with reagent grade (dem-ineralized) water. For each rinse, fill bottle to about 25 % bottlevolume, place cap on bott

7、le, and shake to rinse all surfaces.Dispose of rinse water.6.11.3 Dry bottle and cap in oven, then place cap on bottleand store until use.6.12 Mass MeasurementMaterial masses shall be deter-mined with balances that provide the following accuracies,depending on the materials being weighed:6.13 Volume

8、 MeasurementMeasure leachant volumesgravimetrically or with pipettes, burettes, or flasks calibrated asdescribed in Table 1.6.14 Solution AnalysisMeasure solute concentrations us-ing equipment standardized with standards traceable to NIST,preferably, or other recognized organizations, such as EPA or

9、USGS.6.14.1 Determine and report precision and bias for analyses.Although analytical results should normally be accurate within10 % when checked by individual measurements on referencesolutions, this may not be possible when concentrations in thesolution are near detection limits. The detection limi

10、ts for eachanalysis must accompany the reported result.6.14.2 Various analytical techniques can be used to deter-mine the solute concentrations in leachates, including induc-tively coupled plasma spectroscopy (see Practice C1109 orEPA SW-846A, or both), direct current plasma spectroscopy,atomic abso

11、rption emission spectroscopy, and neutron activa-tion. Selection of a specific technique depends on specific testobjectives and the particular solutes of interest. For radioactiveelements such as actinides and fission products, where smallamounts may be of interest, radiochemistry/radiation counting

12、may be needed or desirable.6.14.3 Analyzing blanks and simulated leachates with testsolutions helps ensure that high-quality data are obtained.6.15 pH MeasurementMeasure the pH to an accuracy of0.1 unit using an electrode and meter calibrated with commer-cial buffers or buffers obtained from NIST. F

13、ollow Test MethodD1293, Method A to make this measurement.6.15.1 When measuring the pH of a deaerated solution,conduct the measurement under an argon atmosphere.TABLE 1 Required Accuracy for Mass DeterminationsLeachant and vessels within 0.25 % of the leachant massChemical reagents usedto prepare le

14、achantwithin 1 % of the reagent massTest specimens within 0.5 mgC1220 1066.15.2 When measuring the pH of a brine solution, themeasured value will be affected by a significant liquid junctionpotential that is sensitive to the ionic strength and the activitycoefficient of hydrogen that will different

15、significantly fromunity. These effects lead to large uncertainties in the measuredvalues. They are discussed in more detail in Appendix X1.6.16 Calibration and StandardsCalibrate all instrumentsused in these tests prior to use and check periodically tominimize possible errors due to drift. Table 2 s

16、hows themethods and the minimum frequency of calibration for thevarious devices used. Use standardized procedures that arepublished by recognized authorities such as NIST or ASTM.7. Leachant Preparation and Storage7.1 General Chemicals and ProceduresUse chemicals ofreagent grade or better that confo

17、rm to the specifications of theCommittee on Analytical Reagents of the American ChemicalSociety, where such specifications are available.5It is recom-mended that the assays of each chemical be assessed todetermine if impurities, once the leachant is prepared, willexceed detection limits of the analy

18、sis system to be used. Ifimpurities will cause detection limits to be exceeded, obtain adifferent batch of the chemical or use an ultrapure chemical.Good laboratory practice should be used at all times tominimize contamination of the leachant.7.1.1 Although any leachant can be used in tests, recipes

19、 fora reference brine leachant and a reference silicate leachant areprovided to facilitate comparisons of test results from differentlaboratories. The reference brine and silicate leachant compo-sitions are not intended to represent any particular groundwaters.7.1.2 Blank tests must be conducted wit

20、h all leachants tomeasure the stability of the leachant under the test conditionsand interactions with the vessel and support.7.1.3 The density of all leachants should be measured topermit the addition of leachant to the individual leach tests byweight rather than by volume.7.2 Demineralized WaterTh

21、e water referred to in thisprocedure is air-saturated reagent water Type I or II conform-ing to Specification D1193, with a total impurity level, includ-ing organics, of less than 0.1 mg/L.7.2.1 Radiolysis of gases dissolved in water can become animportant factor in tests with radioactive materials.

22、 Therefore,deaerated leachants should be used in tests with radioactivespecimens.7.2.2 To deaerate demineralized water for use in leachantpreparation, boil high-purity water for 15 min while purgingwith argon. Immediately place the hot water under an argonatmosphere to cool. Prepare the leachants as

23、 described belowusing the cooled, deaerated water in an argon atmosphere.7.2.3 The density of pure air-free water at 23C is 0.9976g/cm3.7.3 Preparation of Reference Brine LeachantPrepare thereference brine by dissolving 48.2 g KCl, 90.0 g NaCl, and116.0 g MgCl2(247.9 g MgCl26H2O) in enough demineral

24、-ized water to make approximately 900 mL of solution. Adjustthe pH to fall within the range of 6.4 to 6.6 by dropwiseaddition of 0.01 M NaOH or 0.01 M HCl. Then add water tomake 1.00 L of solution. Analyze the leachant to verify thecomposition and to determine impurity concentrations. Discardthe lea

25、chant if the concentration of any constituent is in errorby more than 10 % from the recipe concentration, which is35.4 g Na+/L, 54.9 mg K+/L, 29.6 mg Mg2+/L, and164 mg Cl/L (neglecting the Na and Cl added as NaOH andHCI).7.3.1 The density of the brine leachant should be measuredto permit the additio

26、n of aliquants of brine leachant to theindividual leach tests by weight rather than by volume.7.3.2 CautionWhen using brine in radiation fields, hy-drogen gas will be generated and may pressurize the testvessel. Take the appropriate precautions when making suchstudies. Use appropriate pressure-rated

27、 test vessels or vesselswith gas vents, or both. Also, since chloride brines can become5Reagent Chemicals, American Chemical Society Specifications, AmericanChemical Society, Washington, DC. For suggestions on the testing of reagents notlisted by the American Chemical Society, see Analar Standards f

28、or LaboratoryChemicals, BDH Ltd., Poole, Dorset, U.K., and the United States Pharmacopeiaand National Formulary, U.S. Pharmacopeial Convention, Inc. (USPC), Rockville,MD.TABLE 2 Required Calibration ScheduleMeasurement Device Frequency Check and MethodsTemperature thermocouple or thermometer 6 month

29、sNIST standard or ice/boiling waterVoltage electronics or temperature probe (without sensor) 6 monthsagainst a calibrated millivolt sourceLength micrometer 6 monthsstandard foils, gage blocksMass balance 3 monthsNIST standard massesChemical concentration analytical method 3 monthsNIST standards, whe

30、re possible, 2 times daily (routine),secondary standardsbefore use with commercial or NIST buffer solutions, and atintervals of 60 min during measurementspH pH meter See Test Methods D1293 and 6.11 for guidanceVolume volumetric flasks use certified flasks or before use by measuring the mass ofpure w

31、ater containedpipettes before use by measuring the mass of pure water transferredActivity counting techniques twice a day, before and after counting NIST or NIST-traceablestandard isotope source for radionuclide of interestC1220 107very corrosive under high radiation fields, use caution whenselectin

32、g the test vessel material.7.4 Preparation of Reference Silicate Water LeachantPrepare the silicate water leachant by dissolving 0.179 gNaHCO3and 0.096 g SiO22H2O in enough demineralizedwater to make about 900 mL of solution. Adjust the pH towithin 0.1 unit of 7.5 with 0.01 M HCl.Add water to make 1

33、.00L of solution.7.4.1 Analyze an aliquant of the leachant to verify thecomposition (27.1 mg Si/L) and to determine impurity concen-trations. Discard the leachant if the concentration of anyconstituent is in error by more than 10 %.7.4.2 The density of the silicate water leachant should bemeasured t

34、o permit the addition of aliquants of leachant to theindividual leach tests by weight rather than by volume.7.5 Repository Water LeachantsWhen actual ground wa-ters or leachants that are representative of specific repositorywaters are used, the rigor with which the data characterizingthe water are o

35、btained must be the same as for the threereference leachants. Record the type of repository water used,where and when it was obtained or how it was prepared if madeup in the laboratory, results of its chemical compositionanalysis, the presence of colloidal material, etc. of any precipi-tates that ma

36、y have been formed in the blanks during the test.7.5.1 Analyze an aliquant of the leachant to measure thecomposition.7.5.2 The density of the ground water should be measured topermit the addition of aliquants to the individual leach tests byweight rather than by volume.7.6 Other LeachantsOther leach

37、ant solutions are usefulwhen using the test to study the waste form degradationmechanism and measuring model parameters. For example, pHbuffer solutions can be used to measure the effect of pH on thetest response and leachants with added components can be usedto measure common ion (solution feed-bac

38、k) effects.7.7 Leachant StorageUse polyethylene or polypropylenebottles with tight-fitting lids to store the leachants. Cleanbottles before use following the cleaning steps given in 6.11.7.7.1 Use the leachant immediately or store in a sealedvessel until beginning the test. If the leachant is not us

39、ed withinone month after it is prepared, report the storage time andverify the composition by analysis before use in tests. Naturalgroundwaters should be stored in a dark location to prevent thegrowth of algae.7.7.2 Store deaerated solutions in a tightly sealed containerwith an argon atmosphere abov

40、e the liquid level and for nolonger than one week.8. Test Specimen Preparation8.1 Test specimens may be either fabricated individually orcut from larger samples of the waste-form material.8.1.1 When cutting a specimen from a larger sample, avoidthe use of wax or adhesives to hold the sample being cu

41、t. Ifadhesive materials must be used, none of the surfaces of theresulting test specimen shall be surfaces to which the adhesivewas applied.8.1.2 Sawing and cutting test specimens for tests to beconducted in deaerated solutions need not be done in an argonatmosphere. However, a final specimen cleani

42、ng step must becarried out under an argon atmosphere using deaerated deion-ized water.8.1.3 The surfaces of individually fabricated test specimensmay not be representative of the bulk material due to formationof a surface skin, and the responses of such specimens may notbe representative of the bulk

43、 material. If separate specimensare cast for each test, the user should determine the effect of theas-cast surface by comparing results of tests conducted with anas-cast specimen and a cut specimen without the outer layerhas been removed.8.2 Characterization of Source MaterialThe source ma-terial is

44、 the sample from which test specimens are extracted. Ifpossible document the fabrication method and fabricationconditions for the source material and provide information onhow test specimens were selected. The researcher must includeinformation on the chemical and radiochemical (if applicable)compos

45、ition and compositional variations of the source mate-rial. This information should be obtained from bulk chemicaland radiochemical analyses. Include information on chemical-composition variations within the fabricated material, as wellas within and between specimens. For certain radioactivesamples,

46、 autoradiography may be necessary to determine thedistribution of alpha-emitting isotopes. The researcher mayalso wish to characterize the source material with opticalmicroscopy, XRD, SEM-EDX, TEM, or other analytical meth-ods to document microcracking, phase identification, relativeconcentrations o

47、f phases, and homogeneity between test speci-mens.8.2.1 For specimens in which an as-fabricated surface is tobe leached, analysis of a surface cross-section by SEM-EDX orother applicable surface spectroscopy techniques is also re-quired to determine whether the surface composition differsfrom the bu

48、lk composition. If differences do exist, the possibleeffects on the test results should be discussed with the testresults.8.2.2 When the waste form source material is a heteroge-neous or multiphase material, it may not be possible to producetest specimens exposing equal amounts of all phases to thel

49、eachants in a test series. In this case, the test operator mustdocument the differences between the test specimens that areused to ensure that the test specimens contain a representativedistribution of the different phases. This should be documentedwith optical microscopy, SEM-EDX, or other applicable tech-niques. Individual particles of component phases may be largeenough relative to the dimensions of the test specimen toestimate the exposed area.8.3 Test SpecimensThe test specimen is preferably pre-pared as a regularly shaped monolith, either a tablet (with s

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