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本文(ASTM C1301-1995(2001) Standard Test Method for Major and Trace Elements in Limestone and Lime by Inductively Coupled Plasma-Atomic Emission Spectroscopy (ICP) and Atomic Absorption.pdf)为本站会员(孙刚)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 C1301-1995(2001) Standard Test Method for Major and Trace Elements in Limestone and Lime by Inductively Coupled Plasma-Atomic Emission Spectroscopy (ICP) and Atomic Absorption.pdf

1、Designation: C 1301 95 (Reapproved 2001)Standard Test Method forMajor and Trace Elements in Limestone and Lime byInductively Coupled Plasma-Atomic Emission Spectroscopy(ICP) and Atomic Absorption (AA)1This standard is issued under the fixed designation C 1301; the number immediately following the de

2、signation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.1. Scope1.1 The following test method c

3、overs the use of inductivelycoupled plasma-atomic emission spectroscopy (ICP) andatomic absorption spectroscopy (AA) in the analysis of majorand trace elements in limestone and lime (calcined limestone).1.2 Table 1 lists some of the elements that can be analyzedby this test method and the preferred

4、wavelengths. Also seeU.S. EPA Method 200.7 and 200.9.1.3 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 and health practices and determine the applica-bility o

5、f regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:C 51 Terminology Relating to Lime and Limestone (AsUsed by the Industry)2D 1193 Specification for Reagent Water3E 135 Terminology Relating to Analytical Chemistry forMetals, Ores, and Related Materials4E 863 Practice for

6、 Describing Atomic Absorption Spectro-metric Equipment4E 1479 Practice for Describing and Specifying Inductively-Coupled Plasma Atomic Emission Spectrometers42.2 U.S. EPA Standards:Methods for the Determination of Metals in EnvironmentalSamples; U.S. EPA Methods 200.2, 200.7 and 200.9;Smoley, C. K.,

7、 19925Method 6010, Inductively Coupled Plasma Method, SW-846, Test Methods for Evaluating Solid Waste63. Terminology3.1 DefinitionsDefinitions for terms used in this testmethod can be found in Terminologies C 51 and E 135.3.2 Additional Definitions:3.2.1 total recoverable, ntrace element concentrati

8、on inan unfiltered sample after heating in acid.3.2.2 total digestion, ncomplete digestion of a sample,including silica and silicate minerals, using the fusion-fluxmethod.4. Summary of Test Method4.1 A sample, digested by either fusion or acid, is atomizedand passed into an excitation medium (a plas

9、ma in the case ofICP; a flame in the case of AA). The resulting ions are analyzed1This test method is under the jurisdiction of ASTM Committee C07 on Limeand is the direct responsibility of Subcommittee C07.05 on Chemical Uses.Current edition approved Aug. 15, 1995. Published October 1995.2Annual Bo

10、ok of ASTM Standards, Vol 04.01.3Annual Book of ASTM Standards, Vol 11.01.4Annual Book of ASTM Standards, Vol 03.05.5Available from CRC Press, 2000 Corporate Blvd., N. W., Boca Raton, FL33431.6Available from U.S. Government Printing Office, Washington, DC 20402.TABLE 1 Elements and Some Suggested Wa

11、velengthsAMajor Elements ICP Wavelength, nm AA Wavelength, nmCalcium 317.933 (315.887)B422.7Magnesium 279.079 (285.213) 285.2Silicon 251.611 (288.160) 251.6Aluminum 308.215 (309.271) 309.3Iron 259.940 248.3Manganese 257.610 279.5Sodium 588.995 (589.59) 589.0Potassium 766.491 766.5Phosphorus 214.914

12、(213.618) .CStrontium 421.552 460.7Trace Elements ICP Wavelength, nm AA Wavelength, nmAntimony 206.833 217.6Arsenic 193.696 193.7Barium 455.403 (493.409) 553.6Beryllium 313.042 234.9Boron 249.773 249.8Cadmium 226.502 (228.80) 228.8Chromium 267.716 (205.552) 357.9Cobalt 228.616 240.7 (242.5)Copper 32

13、4.754 324.8Lead 220.353 217.0 (283.3)Molybdenum 202.030 (203.844) 313.3Nickel 231.604 (221.647) 232.0Selenium 196.090 196.0Silver 328.068 328.1Sulfur 180.731 (180.669) .CThallium 190.864 276.8Tin 189.989 235.5 (286.3)Vanadium 292.402 318.4Zinc 213.856 (202.551) 213.9AThe suggested wavelengths may va

14、ry for your particular instrument.BNumbers in parentheses are alternate wavelengths.CNot recommended or not used.1Copyright ASTM, 100 Barr Harbor Drive, West Conshohocken, PA 19428-2959, United States.by atomic spectroscopy. Elemental concentrations are deter-mined by graphically relating the emissi

15、on/absorption at spe-cific wavelengths for an unknown sample to analytical curvesmade from reference standards of known composition.5. Significance and Use5.1 The presence and concentration of elements in lime andlimestone is important in determining product quality and itssuitability for various us

16、es. This test method provides a meansof measuring the major and trace element concentration in limeand limestone.6. Interferences6.1 ChemicalChemical interferences, most common inAA, arise from the formation of molecular compounds thatcause absorbances at the wavelength of interest. This molecu-lar

17、band spectral overlap can be minimized by buffering thesample with matrix modifiers (a Lanthanum additive, forexample), using standard additions techniques, matrix match-ing or by careful selection of operating conditions (for ex-ample, using a hotter nitrous oxide/acetylene flame, selectingan alter

18、nate wavelength).6.2 PhysicalPhysical interferences are the result of theinconsistencies in the introduction of the sample into theinstrument, namely the transport and atomization/nebulizationof the sample. These inconsistencies are a function of changingviscosity and surface tension, and are found

19、primarily insamples of high-dissolved solids or high-acid concentrations.Physical interferences can be reduced by diluting the sampleand by the use of a peristaltic pump.6.3 SpectralSpectral interference, most common in ICP,consists of overlapping and unresolved peaks. Computer soft-ware, along with

20、 the analysis of the suspected interferingelement, can compensate for this effect. Using an alternatewavelength is also a solution. Another spectral interference iscaused by background, both stray light and continuous spec-trum (continuous argon spectrum, for example). Backgroundcorrection adjacent

21、to the analyte line will correct backgroundspectral interference.7. Apparatus7.1 Spectrometer.7.1.1 Inductively Coupled Plasma Emission Spectrometer(ICP)Either a scanning sequential or multi-element simulta-neous type ICP, with resolution appropriate for the elements tobe analyzed. The optical path

22、may be in air, vacuum or an inertgas. A detailed description of an ICP is given in PracticeE 1479.7.1.2 Atomic Absorption Spectrometer (AA)An atomicabsorption spectrometer consisting of single or double beamoptics, a monochromator, photomultiplier detector, adjustableslits, a wavelength range from 1

23、90 to 800 nm, and provisionsfor interfacing with either a strip chart recorder or a computer.A simultaneous background correction system is also recom-mended. A detailed description of an AA is given in PracticeE 863.7.1.2.1 Hollow Cathode LampsSingle hollow cathodelamps, one for each element. Multi

24、-element hollow cathodelamps can be used but spectral interferences are possible.8. Reagents8.1 Purity of ReagentsReagents should conform to thespecifications of the Committee on Analytical Reagents of theAmerican Chemical Society as a minimum when such speci-fications are available.7The high sensit

25、ivity of both the ICPand AA may require reagents of high purity. It is recommendedthat the reagents be of sufficiently high purity so as not tolessen the accuracy of the determination.8.2 Purity of WaterAt minimum, water should conform toType II of Specification D 1193.8.3 Stock SolutionsStandard st

26、ock solutions may be pur-chased or prepared from high purity metals or metal salts(Method 6010, SW-846; EPA Method 200.7 and 200.9). Saltsshould be dried at 105C for 1 h, unless otherwise specified.8.4 Multi-element Calibration StandardsICP calibrationis most often performed using multi-element cali

27、bration stan-dards prepared from single element stock solutions. Prior topreparing the mixed standards, each stock solution should beanalyzed separately to determine possible spectral interferenceor the presence of impurities. Standards are combined in sucha way that they are chemically compatible (

28、no precipitationoccurs) and do not cause spectral interferences. An example ofmulti-element combinations is given in EPA Method 200.7.8.5 Interference Check SampleInterference checksamples are made from single element stock solutions at aconcentration level equal to that of the samples to be analyze

29、d.8.6 Calibration BlankA calibration blank is prepared atthe same acid strength as that of the samples to be analyzed;usually 5 or 10 %. To prepare a 10 % nitric acid calibrationblank, add one volume of nitric acid to nine volumes of water.This same blank can be used as the rinse solution for flushi

30、ngthe system between standards and samples.8.7 Reagent BlankThe reagent blank contains all thereagents in the same concentrations (including nitric acid) asthe samples to be analyzed. The reagent blank is carriedthrough the same processes as a sample for analysis.8.8 Nitric AcidHigh purity nitric ac

31、id is recommended.8.9 Lithium Tetraborate (Li2B4O7) Powder or LithiumMetaborate (LiBO2) Powder.8.10 Non-Wetting AgentSaturated solution of HydrogenBromide (HBr), Potassium Bromide (KBr) or Potassium Iodide(KI) as a non-wetting agent to prevent the flux from sticking tothe crucible.8.11 Lanthanum Chl

32、oride (LaCl3) PowderLanthanum isadded to samples for AA analysis as a releasing agent (forCalcium) and ionization suppressant (for Aluminum). Whenadded to the sample solution, Lanthanum will preferentiallyreact with potential interferents and “release” the analyte. Inaddition, the Lanthanum will pre

33、ferentially ionize relative toAluminum, aiding in the number of ground state Aluminumatoms. A typical Lanthanum additive is prepared by dissolving7Reagent Chemicals, American Chemical Society Specifications, AmericanChemical Society, Washington, DC. For suggestions on the testing of reagents notlist

34、ed by the American Chemical Society, see Analar Standards for LaboratoryChemicals, BDH Ltd., Poole, Dorset, U.K., and the United States Pharmacopeiaand National Formulary, U.S. Pharmacopeial Convention, Inc. (USPC), Rockville,MD.C 13012175 g LaCl3 in 1 L of water (equivalent to 100 g/L Lantha-num).9

35、. Preparation of Apparatus9.1 Prepare and operate the spectrometer in accordance withthe manufacturers instructions. The present method assumesthat good operating procedures are followed. Design differ-ences between spectrometers make it impractical to specify therequired steps in detail here.10. Ca

36、libration and Standardization10.1 Allow a warm-up time of at least 30 min. Operate thespectrometer according to the operation manual for the instru-ment.10.2 Calibrate the instrument by aspirating the blank andstandards. A 10 % by volume HNO3 rinse solution is aspiratedfor a minimum of 60 s between

37、each standard. Most newsystems are controlled by computer. The computer will estab-lish the slope, intercept and correlation coefficients for eachelement. Some suggested wavelengths are given in Table 1 andEPA Methods 200.2, 200.7, and 200.9.10.3 A peristaltic pump is recommended for aspiratingstand

38、ards and samples. The peristaltic pump will reducephysical interferences caused by changes in specimen viscosityand concentration (transport processes).11. Sample Preparation11.1 Major ElementsSamples for major element analysisare prepared for total digestion using lithium tetraborate orlithium meta

39、borate as a flux. Major elements include Calcium,Magnesium, Silicon, Aluminum, Iron, Manganese, Sodium andPotassium. Trace elements such as Lead, Arsenic, Seleniumand Antimony will partially volatilize using this fusion methodand it is therefore not recommended for trace element analysis.11.1.1 Take

40、 a representative minus 100 mesh sample splitand dry at 105C for 2 h.11.1.2 Weigh 0.25 g of dried sample in a graphite orplatinum crucible. Then weigh 1.00 g of lithium metaborate inthe crucible. Add a few drops of non-wetting agent if needed.Mix the sample and lithium metaborate (the flux) well. Co

41、verthe mixed sample-lithium metaborate with an additional 0.50 gof lithium metaborate. This will give a total sample-flux ratioof 1:6.11.1.3 Place a lid (optional) on the crucible prepared in11.1.2 and place in a muffle furnace at 1000C for 30 min.Gently agitate the molten contents of the crucible a

42、t least onceduring the 30 min heating.11.1.4 Add 12.5 mL of concentrated nitric acid and 40 mLof water to a clean 250 mL wide-mouth plastic bottle.11.1.5 When the 30 min heating in 11.1.3 is complete,quickly pour molten contents of the crucible into the plasticbottle described in 11.1.4. The water w

43、ill bubble and sizzle.Quickly put the lid on the plastic bottle and shake. To aid indigestion place the bottle in a warm ultrasonic bath.11.1.6 The contents of the plastic bottle can either bequantitatively transferred to a 250 mL volumetric flask anddiluted to volume or diluted to volume by weight

44、(that is, 1mL = 1 g) in the same 250 mL plastic bottle it was digested in.Keep in mind, however, that the standards need to be made inthe same manner as the samples. Add 10 mL Lanthanumadditive to samples for AA analysis (10 mL addition is part ofthe dilution to volume). Filtering is not necessary.1

45、1.2 Trace ElementsSamples for trace element analysisare prepared using hydrochloric acid (1:5 or 1+4) and nitricacid (1:2 or 1+1). The trace elements concentrations deter-mined by this method are termed “total recoverable” (that is,components not digested in hot acid are not recovered). Traceelement

46、s include, but are not limited to, Antimony, Arsenic,Barium, Beryllium, Boron, Cadmium, Chromium, Cobalt,Copper, Lead, Molybdenum, Nickel, Selenium, Silver, Stron-tium, Thallium, Tin, Vanadium, and Zinc.11.2.1 Take a representative minus 100 mesh sample splitand dry at 105C for 2 h.11.2.2 Weigh 1.00

47、 g of dried sample and transfer to a cleanbeaker.11.2.3 Add 10 mL of dilute hydrochloric acid (see 11.2) and4 mL of dilute nitric acid (see 11.2). In the case of limestone,add the acids slowly so that the powdered sample will notsplatter on the sides of the beaker during its effervescentreaction wit

48、h the acid. Cover the sample (a ribbed watch glassis best) and place on a hot plate. Heat at approximately 85Cfor 30 min. Boiling should be kept to a minimum. After 30 minallow the sample to cool. Then quantitatively transfer the liquidand any undissolved residue to a 100 mL volumetric flask.Dilute

49、to volume.12. Procedure12.1 Aspirate the specimens prepared in Section 11 into theAA or ICP using the same conditions used during calibration.12.2 Analyze the instrument check standards, blanks andinternal control samples at a 10 % or better frequency. Theresults on the instrument check standards are to be within10 %, and the internal control specimens should fall withinestablished limits of deviation. If the results exceed theselimits, investigate the cause and take corrective action.12.3 It is recommended that 10 % of the samples analyzedbe duplicates. Proce

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