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    ASTM D4951-2009 Standard Test Method for Determination of Additive Elements in Lubricating Oils by Inductively Coupled Plasma Atomic Emission Spectrometry《感应耦合等离子体原子发射光谱法测定润滑油添加元素的.pdf

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    ASTM D4951-2009 Standard Test Method for Determination of Additive Elements in Lubricating Oils by Inductively Coupled Plasma Atomic Emission Spectrometry《感应耦合等离子体原子发射光谱法测定润滑油添加元素的.pdf

    1、Designation: D 4951 09An American National StandardStandard Test Method forDetermination of Additive Elements in Lubricating Oils byInductively Coupled Plasma Atomic Emission Spectrometry1This standard is issued under the fixed designation D 4951; the number immediately following the designation ind

    2、icates 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 () indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies o

    3、f the Department of Defense.1. Scope*1.1 This test method covers the quantitative determinationof barium, boron, calcium, copper, magnesium, molybdenum,phosphorus, sulfur, and zinc in unused lubricating oils andadditive packages.1.2 The precision statements are valid for dilutions in whichthe mass %

    4、 sample in solvent is held constant in the range of1 to 5 mass % oil.1.3 The precision tables define the concentration rangescovered in the interlaboratory study. However, both lower andhigher concentrations can be determined by this test method.The low concentration limits are dependent on the sens

    5、itivityof the ICP instrument and the dilution factor. The highconcentration limits are determined by the product of themaximum concentration defined by the linear calibration curveand the sample dilution factor.1.4 Sulfur can be determined if the instrument can operate ata wavelength of 180 nm.1.5 T

    6、he values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstandard.1.6 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-pri

    7、ate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 1552 Test Method for Sulfur in Petroleum Products(High-Temperature Method)D 4057 Practice for Manual Sampling of Petroleum andPetroleum ProductsD 4307

    8、Practice for Preparation of Liquid Blends for Use asAnalytical StandardsD 4628 Test Method for Analysis of Barium, Calcium,Magnesium, and Zinc in Unused Lubricating Oils byAtomic Absorption SpectrometryD 4927 Test Methods for Elemental Analysis of Lubricantand Additive ComponentsBarium, Calcium, Pho

    9、spho-rus, Sulfur, and Zinc by Wavelength-Dispersive X-RayFluorescence SpectroscopyD 5185 Test Method for Determination of Additive Ele-ments, Wear Metals, and Contaminants in Used Lubricat-ing Oils and Determination of Selected Elements in BaseOils by Inductively Coupled Plasma Atomic EmissionSpectr

    10、ometry (ICP-AES)D 6299 Practice for Applying Statistical Quality Assuranceand Control Charting Techniques to Evaluate AnalyticalMeasurement System Performance3. Summary of Test Method3.1 A sample portion is weighed and diluted by mass withmixed xylenes or other solvent. An internal standard, which i

    11、srequired, is either weighed separately into the test solution or ispreviously combined with the dilution solvent. Calibrationstandards are prepared similarly. The solutions are introducedto the ICP instrument by free aspiration or an optionalperistaltic pump. By comparing emission intensities of el

    12、e-ments in the test specimen with emission intensities measuredwith the calibration standards and by applying the appropriateinternal standard correction, the concentrations of elements inthe sample are calculable.4. Significance and Use4.1 This test method usually requires several minutes persample

    13、. This test method covers eight elements and thusprovides more elemental composition data than Test MethodD 4628 or Test Methods D 4927. In addition, this test methodprovides more accurate results than Test Method D 5185,which is intended for used lubricating oils and base oils.4.2 Additive packages

    14、 are blends of individual additives,which can act as detergents, antioxidants, antiwear agents, andso forth. Many additives contain one or more elements coveredby this test method. Additive package specifications are based,1This test method is under the jurisdiction of ASTM Committee D02 onPetroleum

    15、 Products and Lubricants and is the direct responsibility of SubcommitteeD02.03 on Elemental Analysis.Current edition approved April 15, 2009. Published May 2009. Originallyapproved in 1989. Last previous edition approved in 2006 as D 495106.2For referenced ASTM standards, visit the ASTM website, ww

    16、w.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.1*A Summary of Changes section appears at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive,

    17、 PO Box C700, West Conshohocken, PA 19428-2959, United States.in part, on elemental composition. Lubricating oils are typi-cally blends of additive packages, and their specifications arealso determined, in part, by elemental composition. This testmethod can be used to determine if additive packages

    18、andunused lubricating oils meet specifications with respect toelemental composition.5. Interferences5.1 SpectralThere are no known spectral interferencesbetween elements covered by this test method when using thespectral lines listed in Table 1. However, if spectral interfer-ences exist because of o

    19、ther interfering elements or selection ofother spectral lines, correct for the interference using thetechnique described in Test Method D 5185.5.2 Viscosity Index Improver EffectViscosity index im-provers, which can be present in multigrade lubricating oils,can bias measurements. However, the biases

    20、 can be reduced tonegligible proportion by using the specified solvent-to-sampledilution and an internal standard.6. Apparatus6.1 Inductively-Coupled Plasma Atomic EmissionSpectrometerEither a sequential or simultaneous spectrom-eter is suitable, if equipped with a quartz ICP torch and RFgenerator t

    21、o form and sustain the plasma.6.2 Analytical Balance, capable of weighing to 0.001 g or0.0001 g, with sufficient capacity to weigh prepared solutions.6.3 Peristaltic Pump, (Recommended)A peristaltic pumpis strongly recommended to provide a constant flow of solu-tion. The pumping speed must be in the

    22、 range 0.5 to 3 mL/min.The pump tubing must be able to withstand at least 6 hexposure to the dilution solvent. Fluoroelastomer copolymer3tubing is recommended.6.4 Solvent Dispenser, (Optional)A solvent dispensercalibrated to deliver the required weight of diluent can beadvantageous. Ensure that solv

    23、ent drip does not affect accu-racy.6.5 Specimen Solution Containers, of appropriate size, glassor polyolefin vials or bottles, with screw caps.6.6 Vortexer, (Optional)Vortex the sample plus diluentmixture until the sample is completely dissolved.6.7 Ultrasonic Homogenizer, OptionalA bath-type orprob

    24、e-type ultrasonic homogenizer can be used to homogenizerthe test specimen.7. Reagents and Materials7.1 Purity of ReagentsReagent grade chemicals shall beused in all tests. Unless otherwise indicated, it is intended thatall reagents conform to the specifications of the Committee onAnalytical Reagents

    25、 of the American Chemical Society wheresuch specifications are available.47.2 Base Oil, U.S.P. white oil, or a lubricating base oil thatis free of analytes, having a viscosity at room temperature asclose as possible to that of the samples to be analyzed.(WarningLubricating base oils can contain sulf

    26、ur. Forpreparation of sulfur standards and blending of additive pack-ages, white oil is recommended.)7.3 Internal Standard, (Required)An oil-soluble internalstandard element is required. The following internal standardswere successfully used in the interlaboratory study on preci-sion: Ag, Be, Cd, Co

    27、 (most common), La, Mn, Pb, Y.7.4 Organometallic StandardsMulti-element standards,containing known concentrations (approximately 0.1 mass %)of each element, can be prepared from the individual metalconcentrates. Refer to Practice D 4307 for a procedure forpreparation of multicomponent liquid blends.

    28、 When preparingmulti-element standards, be certain that proper mixing isachieved. Commercially available multi-element blends (withknown concentrations of each element at approximately 0.1mass %) are also satisfactory.7.4.1 More than one multi-element standard can be neces-sary to cover all elements

    29、, and the user of this test method canselect the combination of elements and their concentrations inthe multi-element standards. It can be advantageous to selectconcentrations that are typical of unused oils. However, it isimperative that concentrations are selected such that theemission intensities

    30、 measured with the working standards canbe measured precisely (that is, the emission intensities aresignificantly greater than background) and that these standards3Fluoroelastomer copolymer is manufactured as Viton, a trademark owned by E.I. duPont de Nemours.4Reagent Chemicals, American Chemical So

    31、ciety Specifications , AmericanChemical Society, Washington, DC. For suggestions on the testing of reagents notlisted 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. Pharmaco

    32、peial Convention, Inc. (USPC), Rockville,MD.TABLE 1 Elements Determined and Suggested WavelengthsAElement Wavelength, nmBarium 233.53, 455.40, 493.41BoronB182.59, 249.68Calcium 315.88, 317.93, 364.4, 422.67Copper 324.75Magnesium 279.08, 279.55, 285.21Molybdenum 202.03, 281.62PhosphorusB177.51, 178.2

    33、9, 213.62, 214.91, 253.40SulfurB180.73, 182.04, 182.62Zinc 202.55, 206.20, 213.86, 334.58, 481.05AThese wavelengths are only suggested and do not represent all possible choices.BWavelengths for boron, phosphorus, and sulfur below 190 nm require that a vacuum or inert gas purged optical path be used.

    34、D4951092represent the linear region of the calibration curve. Frequently,the instrument manufacturer publishes guidelines for determin-ing linear range.7.4.2 Some commercially available organometallic stan-dards are prepared from metal sulfonates and therefore containsulfur. For sulfur determination

    35、s, a separate sulfur standard canbe required. A sulfur standard can be prepared by blendingNIST SRM 1622 with white oil.7.4.3 Metal sulfonates can be used as a sulfur standard if thesulfur content is known or determined by an appropriate testmethod such as Test Method D 1552.7.4.4 Petroleum additive

    36、s can also be used as organometal-lic standards if their use does not adversely affect precision norintroduce significant bias.7.5 Dilution SolventMixed xylenes, o-xylene, and kero-sine were successfully used in the interlaboratory study onprecision.8. Internal Standardization (Required)8.1 The inte

    37、rnal standard procedure requires that every testsolution (sample and standard) have the same concentration (ora known concentration) of an internal standard element that isnot present in the original sample. The internal standard isusually combined with the dilution solvent. Internal standardcompens

    38、ation is typically handled in one of two different ways,which can be summarized as follows.8.1.1 Calibration curves are based on the measured intensityof each analyte divided (that is, scaled) by the measuredintensity of the internal standard per unit internal standardelement concentration. Concentr

    39、ations for each analyte in thetest specimen solution are read directly from these calibrationcurves.8.1.2 For each analyte and the internal standard element,calibration curves are based on measured (unscaled) intensi-ties. Uncorrected concentrations for each analyte in the testspecimen solution are

    40、read from these calibration curves.Corrected analyte concentrations are calculated by multiplyingthe uncorrected concentrations by a factor equal to the actualinternal standard concentration divided by the uncorrectedinternal standard concentration determined by analysis.8.2 Dissolve the organometal

    41、lic compound representing theinternal standard in dilution solvent and transfer to a dispensingvessel. The stability of this solution must be monitored andprepared fresh (typically weekly) when the concentration of theinternal standard element changes significantly. The concen-tration of internal st

    42、andard element shall be at least 100 timesits detection limit. A concentration in the range of 10 to 20mg/kg is typical.NOTE 1This test method specifies that the internal standard iscombined with the dilution solvent because this technique is common andefficient when preparing many samples. However,

    43、 the internal standardcan be added separately from the dilution solvent as long as the internalstandard concentration is constant or accurately known.9. Sampling9.1 The objective of sampling is to obtain a test specimenthat is representative of the entire quantity. Thus, take labsamples in accordanc

    44、e with the instructions in Practice D 4057.The specific sampling technique can affect the accuracy of thistest method.10. Preparation of Apparatus10.1 InstrumentDesign differences between instruments,ICP excitation sources, and different selected analytical wave-lengths for individual spectrometers

    45、make it impractical todetail the operating conditions. Consult the manufacturersinstructions for operating the instrument with organic solvents.Set up the instrument for use with the particular dilutionsolvent chosen.10.2 Peristaltic Pump If a peristaltic pump is used,inspect the pump tubing and rep

    46、lace it, if necessary, beforestarting each day. Verify the solution uptake rate and adjust itto the desired rate.10.3 ICP Excitation SourceInitiate the plasma source atleast 30 min before performing an analysis. During this warmup period, nebulize dilution solvent. Inspect the torch forcarbon buildu

    47、p during the warm up period. If carbon buildupoccurs, replace the torch immediately and consult the manu-facturers operating guide to take proper steps to remedy thesituation.NOTE 2Carbon that accumulates on the tip of the torch injector tubecan be removed by using nebulizer gas that consists of app

    48、roximately 1 %oxygen in argon.10.3.1 Generally, carbon buildup can be minimized byincreasing the intermediate argon flow rate or lowering thetorch, or both, relative to the load coil.NOTE 3Some manufacturers recommend even longer warm up peri-ods to minimize changes in the slopes of the calibration

    49、curves.10.4 Wavelength ProfilingPerform any wavelength profil-ing that is specified in the normal operation of the instrument.10.5 Operating ParametersAssign the appropriate oper-ating parameters to the instrument task file so that the desiredelements can be determined. Parameters to be included areelement, wavelength, background correction points (optional),interelement correction factors (refer to 5.1), integration time,and internal standard compensation (required). Multiple inte-grations (typically three) are required for each measurement. Atypical integratio


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