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本文(ASTM B922-2002 Standard Test Method for Metal Powder Specific Surface Area by Physical Adsorption《物理吸收法测定金属粉末特定表面积的标准试验方法》.pdf)为本站会员(appealoxygen216)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 B922-2002 Standard Test Method for Metal Powder Specific Surface Area by Physical Adsorption《物理吸收法测定金属粉末特定表面积的标准试验方法》.pdf

1、Designation: B 922 02Standard Test Method forMetal Powder Specific Surface Area by Physical Adsorption1This standard is issued under the fixed designation B 922; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revi

2、sion. 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 This test method covers determination of surface area ofmetal powders. The test method specifies general proceduresthat are ap

3、plicable to many commercial physical adsorptioninstruments. The method provides specific sample outgassingprocedures for listed materials. It includes additional generaloutgassing instructions for other metals. The multipoint equa-tion of Brunauer, Emmett and Teller (BET)2, along with thesingle poin

4、t approximation of the BET equation, forms thebasis for all calculations.1.2 This test method does not include all existing proce-dures appropriate for outgassing metallic materials. The pro-cedures included provided acceptable results for samplesanalyzed during interlaboratory testing. The investig

5、ator shalldetermine the appropriateness of listed procedures.1.3 This method uses SI units as standard. State all numeri-cal values in terms of SI units unless specific instrumentationsoftware reports surface area using alternate units. In this case,present both reported and equivalent SI units in t

6、he finalwritten report. Many instruments report surface area as m2/g,instead of using correct SI units (m2/kg).1.4 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 safe

7、ty and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:B 215 Practices for Sampling Finished Lots of Metal Pow-ders3B 243 Definitions of Terms Used in Powder Metallurgy3E 691 Practice for Conducting an Interlaboratory

8、 Study toDetermine the Precision of a Test Method43. Terminology3.1 DefinitionsRefer to Terminology B 243 for additionalterms specific to metal powders.3.2 Definitions of Terms Specific to This Standard:53.2.1 adsorbate, nmaterial that has been retained by theprocess of adsorption.3.2.2 adsorbent, n

9、any solid having the ability to concen-trate or collect significant quantities of other substances on itssurface.3.2.3 adsorption, na process in which fluid molecules areconcentrated or collected on a surface by chemical or physicalforces, or both.3.2.4 adsorptive, nany substance available for adsor

10、ption.3.2.5 outgassing, nthe evolution of gas from a material ina vacuum or inert gas flow, at or above ambient temperature.3.2.6 physical adsorption (van der Waals adsorption),nthe binding of an adsorbate to the surface of a solid byforces whose energy levels approximate those of condensation.3.2.7

11、 surface area, nthe total area of the surface of apowder or solid including both external and accessible internalsurfaces (from voids, cracks, open porosity, and fissures). Thearea may be calculated by the BET (Brunauer, Emmett, andTeller) equation from gas adsorption data obtained underspecific con

12、ditions. It is useful to express this value as thespecific surface area, for example, surface area per unit mass ofsample (m2/kg).3.2.8 surface area (BET), nthe total surface area of a solidcalculated by the BET (Brunauer, Emmett, Teller) equation,from nitrogen adsorption or desorption data obtained

13、 underspecific conditions.3.2.9 surface area, specific, nthe area, per unit mass of agranular or powdered or formed porous solid, of all externalplus internal surfaces that are accessible to a penetrating gas orliquid.4. Summary of Test Method4.1 An appropriately sized sample (to provide at least th

14、eminimum surface area required for reliable results for theinstrument used) is outgassed under appropriate conditionsprior to analysis.1This test method is under the jurisdiction of ASTM Committee B09 on MetalPowders and Metal Powder Products and is the direct responsibility of Subcom-mittee B09.03

15、on Refractory Metal Powders.Current edition approved Oct. 10, 2002. Published December 2002.2Brunauer, S., Emmett, P. H., and Teller, E. “Adsorption of Gases in Multimo-lecular Layers.” Journal of the American Chemical Society, Vol. 60, 1938, pp.309-319.3Annual Book of ASTM Standards, Vol 02.05.4Ann

16、ual Book of ASTM Standards, Vol 14.02.5ASTM. ASTM Dictionary of Engineering, Science, and Technology, 9th ed.West Conshohocken, PA: ASTM, 2000.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.4.2 Multipoint BET Analyses onlyVolume of

17、gas ad-sorbed, or desorbed, is determined as cm3corrected to standardtemperature and pressure (STP) for a minimum of four relativepressures within the linear BET transformation range of thephysical adsorption, or desorption, isotherm characteristic ofthe metal. The linear range is that which results

18、 in a leastsquares correlation coefficient of 0.9999 or greater for therelationship between BET transformation and relative pressure.Typically, the linear range includes relative pressures between0.05 and 0.30.4.3 Single Point BET Analyses onlyVolume of gas ad-sorbed, or desorbed, is determined as c

19、m3corrected to standardtemperature and pressure (STP) at the highest known relativepressure within the linear BET transformation range of thephysical adsorption, or desorption, isotherm. Typically, arelative pressure of 0.30 is used. (It may be necessary to firstperform a multipoint analysis of the

20、material to determine theoptimum single point relative pressure.)4.4 The sample is weighed to nearest 0.1 mg after analysis.It is important to use an analytical balance to determine thesample mass. The physical adsorption instrument measures thetotal amount of gas adsorbed onto, or desorbed from, th

21、esample under analysis. The sample mass is then used tonormalize the measured adsorption results. Any error in thesample mass will affect the final BET surface area.4.5 Calculations are based on the BET equation, as requiredby the instrument being used for the determination. The crosssectional area

22、for the adsorbate is taken to be 0.162 nm2ifnitrogen is used as the adsorptive. Use the appropriate valuerecommended by the instrument manufacturer for adsorptivesother than nitrogen. Report this cross sectional area with theBET surface area results.5. Significance and Use5.1 Both suppliers and user

23、s of metals can benefit fromknowledge of the surface area of these materials. Results ofmany intermediate and final processing steps are controlled by,or related to, specific surface area of the metal. The perfor-mance of many sintered or cast metal structures may bepredicted from the specific surfa

24、ce area of the starting metalpowder, or all or a portion of the finished piece.6. Interferences6.1 This test method can be used to determine the internaland external surface of a powder or solid only after thesesurfaces have been cleaned of any physically adsorbed mol-ecules. Such adsorbed species,

25、for example water or volatileorganic compounds, prevent physical adsorption of the gasprobe molecules used to measure surface area. Therefore, it isnecessary to remove these adsorbed contaminants prior tosurface area analysis. Generally, such outgassing is performedby evacuating or flushing the samp

26、le. Outgassing can beaccelerated by using elevated temperatures, provided no irre-versible sample changes occur. Typical minimum vacuumlevels attained are 10-1Pa. Typical flushing gases are helium,nitrogen, or a mixture of the two. Outgassing is complete whenduplicate surface area analyses produce r

27、esults within expectedinstrument repeatability limits, when a constant residual vaporpressure is maintained upon isolation from the vacuum source,or when flushing gas composition is unaffected while passingover the sample.7. Apparatus7.1 Commercial instruments are available from severalmanufacturers

28、 for the measurement of specific surface area byphysical adsorption. Some are automated versions of theclassical vacuum apparatus. Others make use of balancedadsorption technology. Additionally, commercial instrumentsare available which measure physical adsorption based on thedynamic flow method.7.2

29、 Analytical Balance, capable of weighing to the nearest0.1 mg.8. Reagents and Materials8.1 Liquid Nitrogen.8.2 Nitrogen, 99.999 mole percent, with the sum of O2,argon, CO2, hydrocarbons (as CH4), and H2O totaling less than10 parts per million; dry and oil-free; cylinder, or other sourceof purified n

30、itrogen.8.3 Helium, 99.999 mole percent, with the sum of N2,O2,argon, CO2, hydrocarbons (as CH4), and H2O totaling less than10 parts per million; dry and oil-free; cylinder, or other sourceof purified helium, if needed for determination of void spaceabove sample.8.4 Blended Nitrogen and Helium, dry

31、and oil-free; cylin-der, or other source of blended gases. The actual compositionof the blend must be known. For use with dynamic flowinstruments only.9. Hazards9.1 Precautions applying to the use of liquid nitrogen andcompressed gases should be observed.10. Sampling, Test Specimens, and Test Units1

32、0.1 It is important that the test portion being analyzedrepresent the larger bulk sample from which it is taken. Thebulk sample should be homogenized before any sampling takesplace. Best results are obtained when a flowing bulk material istemporarily diverted into a collector for an appropriate time

33、. Itis better to sample the entire flow for a short time than tosample a portion of the flow for a longer time. Collectingseveral small aliquants and combining them improves thereliability of the sampling process. Rotating rifflers are avail-able commercially which satisfy these sampling requirement

34、s.Refer to Practices B 215 for information on the use of a chutesample splitter.11. Calibration and Standardization11.1 Follow manufacturers instructions for calibration andoperational verification of the instrument.12. Outgassing12.1 Weigh (to nearest 0.1 mg) a clean, empty sample tube,along with s

35、topper or seal. Record the empty tube mass.12.2 Add test portion to empty sample tube. Sample quan-tity should be sufficient to satisfy minimum surface area asrequired by manufacturer.B92202212.3 Attach prepared sample tube to outgassing port ofinstrument. Secure heating mantle or oven around sample

36、 tubeat the time appropriate for sample.12.4 Initiate outgassing program according to manufactur-ers instructions. Program mantle or oven for initial outgassingtemperature. Increase temperature as appropriate for thesample. Allow sample to continue to outgas until prescribedvacuum level or detector

37、signal is achieved and/or for pre-scribed outgassing time. Samples analyzed during the inter-laboratory study were heated for2hat200C.12.5 Remove heating mantle or oven from sample tube.Allow sample tube to cool to ambient temperature. Removeand seal sample tube according to manufacturers instructio

38、ns.12.6 Weigh sample tube (to nearest 0.1 mg) to obtainsample and tube mass. Record mass. Subtract empty sampletube mass determined in 12.1 to obtain outgassed sample mass.Record calculated mass.13. Procedure13.1 Attach appropriately prepared sample holder to analy-sis port according to manufacturer

39、s instructions. Include anyrequired hardware.13.1.1 Use nitrogen as adsorptive for all tests. Use blendednitrogen and helium with dynamic flow instruments. Use purenitrogen with volumetric instruments.13.1.2 Use helium to determine sample holder void spacewith volumetric instruments as necessary.13.

40、1.3 Use liquid nitrogen as cryogen for all tests.13.2 Automated Instruments onlyselect, or input, desiredanalysis and report parameters.13.2.1 Multipoint BET Analyses onlyuse at least fouranalysis points in the linear BET transformation range of theisotherm characteristic of the sample. If necessary

41、, input theoutgassed sample mass. (The final mass should be determinedand entered after the analysis.)13.2.2 Single Point BET Analyses onlyuse highest relativepressure known to be in the linear BET transformation range ofthe isotherm. If necessary, input the outgassed sample mass.(The final mass sho

42、uld be determined and entered after theanalysis.)13.3 Dynamic Flow Instruments onlycollect data pointsas volume of gas desorbed versus relative pressure.13.3.1 Multipoint BET Analyses onlyuse at least fouranalysis points in the linear BET transformation range of theisotherm characteristic of the sam

43、ple.13.3.2 Single Point BET Analyses onlyuse highest relativepressure known to be in the linear BET transformation range ofthe isotherm.13.4 Perform analysis using the specified conditions accord-ing to instrument manufacturers instructions.13.5 When the analysis has finished and the sample haswarme

44、d to room temperature, remove and seal the sample tube.Dry tube and weigh (to nearest 0.1 mg). Record the final tubeand sample mass. Subtract the empty tube mass recorded in12.1 to obtain the final sample mass. Record final sample mass.13.6 Automated Instruments onlyedit the file containingsample in

45、formation to include the final sample mass. Generatefinal sample report.14. Calculations14.1 Automated Instruments onlysoftware automaticallycalculates results for the chosen reports using the final massinput in 13.6.14.2 Dynamic Flow Instruments onlyfollow manufactur-ers instructions for multipoint

46、, or single point, calculations.Use the final sample mass determined in 13.5 when calculatingthe specific surface area.15. Report15.1 Report the following information:15.1.1 Complete sample identification.15.1.2 Collected isotherm point(s) as volume adsorbed, ordesorbed, versus relative pressure. No

47、te whether adsorption ordesorption isotherm is used. Note any units used other thanstandard.15.1.3 Analysis gas used (with cross sectional area if otherthan nitrogen).15.1.4 BET specific surface area. Note any units used otherthan standard.15.1.5 Final sample mass. Note any units used other thanstan

48、dard.15.1.6 Sample outgassing method, including total time andoutgassing temperature(s).16. Precision and Bias16.1 An interlaboratory study is underway, conducted ac-cording to Practice E 691. The study includes iron, tungsten,nickel, cobalt, molybdenum, chromium carbide, and tungstencarbide powders

49、. Expected precision will be determined forthese materials. No statement is given for other metal powders.16.2 PrecisionThe repeatability standard deviation andreproducibility standard deviation will be determined uponcompletion of the interlaboratory study.16.3 BiasNo information can be presented on the bias ofthe procedure in this test method for measuring specific surfacearea because no metal powder having an accepted referencevalue is available.17. Keywords17.1 BET surface area; metal powders; multipoint surfacearea; outgassing; physical adsorption; refra

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