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本文(ASTM D6047-1999(2009) 752 Standard Test Methods for Rubber Raw--Determination of 5-Ethylidenenorbornene (ENB) or Dicyclopentadiene (DCPD) in Ethylene-Propylene-Diene (EPDM) Terpoly.pdf)为本站会员(sumcourage256)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 D6047-1999(2009) 752 Standard Test Methods for Rubber Raw--Determination of 5-Ethylidenenorbornene (ENB) or Dicyclopentadiene (DCPD) in Ethylene-Propylene-Diene (EPDM) Terpoly.pdf

1、Designation: D 6047 99 (Reapproved 2009)Standard Test Methods forRubber, RawDetermination of 5-Ethylidenenorbornene(ENB) or Dicyclopentadiene (DCPD) in Ethylene-Propylene-Diene (EPDM) Terpolymers1This standard is issued under the fixed designation D 6047; the number immediately following the designa

2、tion 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 () indicates an editorial change since the last revision or reapproval.1. Scope1.1 These test methods cover the dete

3、rmination of thecontent of 5-ethylidenenorbornene (ENB) or Dicyclopentadi-ene (DCPD) in ethylene-propylene-diene (EPDM) terpoly-mers. They are applicable to diene contents in the 0.1 to 10mass % range.1.2 ENB and DCPD are dienes introduced in ethylene/propylene rubbers to generate specific cure prop

4、erties. Sincehigh precision for diene content determination has becomevery important, a Fourier Transform Infrared Spectroscopic(FTIR) method was developed. Diene determination wasperformed in the past by a refractive index technique.NOTE 1The procedures for % ENB and % DCPD differ only in thelocati

5、on in the infrared (IR) of the IR peak being quantified.1.3 The values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstandard.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is therespo

6、nsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 297 Test Methods for Rubber ProductsChemicalAnalysisD 1416 Test Methods for Rubber from Sy

7、nthetic Sources-Chemical Analysis3D 3568 Test Methods for RubberEvaluation of EPDM(Ethylene Propylene Diene Terpolymers) Including Mix-tures With OilD 3900 Test Methods for RubberDetermination of Ethyl-ene Units in Ethylene-Propylene Copolymers (EPM) andin Ethylene-Propylene-Diene Terpolymers (EPDM)

8、 byInfrared SpectrometryD 4483 Practice for Evaluating Precision for Test MethodStandards in the Rubber and Carbon Black ManufacturingIndustriesE 168 Practices for General Techniques of Infrared Quanti-tative AnalysisE 932 Practice for Describing and Measuring Performanceof Dispersive Infrared Spect

9、rometersE 1421 Practice for Describing and Measuring Performanceof Fourier Transform Mid-Infrared (FT-MIR) Spectrom-eters: Level Zero and Level One Tests2.2 ANCHA Document:4Specification for Evaluation of Research Quality Analysisof Infrared Spectra3. Summary of Test Methods3.1 The test specimen is

10、molded between two PTFE-coatedaluminum or Mylar sheets. The ENB content is determinedfrom its infrared absorbance at 16811690 cm1, a measure ofENBs exocyclic double bond. The DCPD content is deter-mined from its infrared absorbance at 16051610 cm1,ameasure of DCPDs monocyclic double bond.3.2 The sec

11、ond derivative of the absorbance is calculatedand ratioed to an internal thickness gage. For ENB the resultingsecond derivative peak near 1690 cm1is related to ENB massfraction by calibrating the instrument with known EPDMstandards. For DCPD, the resulting second derivative peak near1610 cm1is relat

12、ed to DCPD mass fraction by calibrating theinstrument with known EPDM standards.3.3 Two main steps are performed in this procedure: auto-matic determination of film thickness and quantification ofdiene.3.4 For oil-extended polymers, the oil must be extractedbefore diene is determined. Test Methods D

13、 1416, Sections 67through 74 and Test Methods D 297 can be used for thispurpose.1These test methods are under the jurisdiction of Committee D11 on Rubber andare the direct responsibility of Subcommittee D11.11 on Chemical Analysis.Current edition approved Jan. 1, 2009. Published March 2009. Original

14、lyapproved in 1996. Last previous edition approved in 2003 as D 6047 99 (2003).2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page o

15、nthe ASTM website.3Withdrawn. The last approved version of this historical standard is referencedon www.astm.org.4“Specification for Evaluation of Research Quality Analysis of Infrared Spec-tra,” Analytical Chemistry, ANCHA, Vol 47, No. 11, p. 94a.1Copyright ASTM International, 100 Barr Harbor Drive

16、, PO Box C700, West Conshohocken, PA 19428-2959, United States.4. Apparatus4.1 Press, Carver-type, capable of pressing films at 150Cand 10 MPa.4.1.1 Primary MoldA stainless steel (SS) mold, 400 mthick, with an opening sized appropriately for the specimenfilm holder described in 4.4 (2 cm by 2 cm). T

17、he mold shouldhave approximately the same dimensions as the press platens.4.1.2 Alternate MoldA thinner mold may be used; how-ever, precision may be adversely affected at low diene levels.Test precision should be determined when thinner films areutilized. Example: a 127-m (0.005-in) SS shim with a 1

18、5- by35-mm opening may be used for the simultaneous determina-tion of ethylene (Test Methods D 3900) and diene.4.1.3 Alternative Mold for Low Molecular Weight (Liquid)EPDM TerpolymersFor liquid EPDM a ring washer 22 mmOD by 16 mm ID (7/8 in OD by 5/8 inch in ID) 400 m thickis used as a apacer betwee

19、n salt plates (NaBr, NaCl) to set afixed path length. The spacer is sized to cover only the outeredge of the salt plate.4.2 Sheets for Molding, either PTFE-coated aluminumsheets or Mylar, Type A, 36 m thick.4.3 Specimen Film HoldersFilms may be molded, cut,and transferred to a film holder. Magnetic

20、film holders areideal. Alternatively, a mold sized to fit in the spectrometerspecimen compartment, with an appropriate size opening maybe used to support the film without removal after pressing.4.4 Infrared Fourier Transform SpectrophotometerAn in-strument capable of measuring absorbances in the ran

21、ge40006000 cm1with a transmittance specification (accuracy)of 6 1%T or better. The instrument should be capable ofspectral resolution of 2 cm1(see “Specification for Evaluationof Research Quality Analysis of Infrared Spectra”). A deuter-ated triglycine sulfate (DTGS) detector should be used. Theinst

22、rument must be operating in accordance with PracticesE 168. Practices E 932 and E 1421 are other important refer-ences.4.4.1 The instrument should be capable of spectral accumu-lation, averaging, and subtracting capabilities. Water is theprimary source of interference in this method. Methods,physica

23、l and electronic, that minimize moisture level andvariation are required to obtain the highest precision. Thepreferred method is use of an instrument equipped with a drygas purge and a specimen shuttle, which permits alternatingand repetitive collection of single beam specimen and back-ground spectr

24、a (see Section 6). Alternatively, should a speci-men shuttle be unavailable, careful purging of the samplecompartment with dry nitrogen can yield satisfactory results.High precision of calibration standard data is indicative ofadequate purging. When moisture interference is not removedby purging, sp

25、ectral subtraction of water vapor may be used.Aprocedure for further method development is described inAppendix X1.5. Test Specimen Preparation5.1 Primary Method Place 0.20 6 0.05 g of the testspecimen between two PTFE-coated aluminum or Mylar sheetsin the mold. Place the mold between the press plat

26、ens heated to125 6 5C and apply 4 MPa pressure for 60 6 10 s.5.1.1 Cool the specimen to ambient temperature. Cut a pieceof film approximately 15 by 50 mm. Detach the specimen filmfrom the aluminum or Mylar and position it on the spectro-photometer sample holder window.5.2 Alternate Method When using

27、 the thinner mold de-scribed in 4.1.2, place a small piece (0.040.06 g) of testspecimen in the mold opening between two Mylar sheets andpress as in 5.1. Remove the mold from the press, turn it overand press it again, then remove the mold from the press andcool it to ambient temperature. When cool, c

28、arefully removethe Mylar sheets, allowing the specimen film to remainattached to the mold.5.3 Alternate Method for Liquid Sample FilmPreparationPlace a washer (described in 4.1.3) on top of asalt plate. Place a small amount (about 0.3 g) of liquid EPDMpolymer in the center of the washer filling the

29、hole completely.Place a second salt plate on top of the filled washer. Gentlyplacea1kgweight on top of the salt plate/washer assemblyand allow the weighted assembly to sit for 2 to 3 min. (Forviscous samples it may be necessary to warm the sample priorto pressing.) Remove the weight and allow to coo

30、l, if neces-sary. Wipe off any excess material that may have been pressedout of the assembly. Hold the assembly up to the light andinspect for bubbles or voids, or both. Should there be imper-fections, repeat the sample preparation with a larger amount ofsample.6. Spectral Acquisition6.1 With a spec

31、imen shuttle:6.1.1 Data acquisition parameters:6.1.1.1 Resolution: 2 cm1.6.1.1.2 Scans/Scan time: Total scan time required, splitbetween specimen and background, is about 90 s.6.1.2 Place the test specimen in the specimen compartment,allow purge to reestablish, and in alternating fashion, collectsin

32、gle beam specimen (P) and “empty specimen compartment”(P0) spectra. Eight passes of the shuttle should be sufficient(eight specimen and eight empty compartment collections),collecting four scans at each position.6.1.3 Calculate the specimen absorbance spectrum as minusthe log10of the ratio of the ac

33、cumulated single beam specimenspectrum to the single beam empty specimen compartmentspectrum:A 52log10P/P0! (1)6.2 Without a specimen shuttle:6.2.1 Data acquisition parameters:6.2.1.1 Resolution: 2 cm1.6.2.1.2 Scans/Scan Time: Background scan: 32 scans, 20 stotal; specimen scan: 32 scans, 20 s total

34、.6.2.2 Establish dry atmosphere inside empty specimen com-partment and collect “empty specimen compartment” ( P0)spectra.6.2.3 Place test specimen in the specimen compartment andre-establish a dry atmosphere inside the specimen compart-ment. Collect single beam specimen spectra (P) and calculatethe

35、specimen absorption spectra (A) as described in 6.1.3.D 6047 99 (2009)27. Calibration of the Spectrophotometer7.1 Obtain a series of known standards covering the 010mass % diene range. Calibration may be based on secondarystandards qualified by other laboratories using this method or,more generally,

36、 by primary standards whose diene content iswell known. Primary standards may be established via use of1H Nuclear Magnetic Resonance (NMR), in conjunction withother techniques. The calibration standards employed in thedevelopment of this method were determined by a combinationof refractive index and

37、1H NMR (utilizing samples dissolved indeuterated o-dichlorobenzene at 120C; the ENB assignmentwas based exclusively on the exocyclic olefinic protons ofENB). The use of four standards at the 0 (copolymer), 2, 5, and10 mass % levels are the minimum recommended.57.2 Using the procedures in Section 6,

38、acquire a minimumof five absorbance spectra for each of the calibration standardsdescribed in 7.1. Several repetitions on separate specimens ofeach standard may be averaged to improve the accuracy of thecalibration.7.3 Using the procedures in Section 8, calculate the ratio ofthe second derivative di

39、ene peak height to the internal thick-ness gage for each of the spectra acquired.7.4 Calculate a linear calibration line (diene peak ratioversus assigned values of the standards in mass % diene) bycomputing a slope and intercept using standard least squareslinear regression techniques.8. Diene Deter

40、mination8.1 Prepare the specimen film as described in Section 5.8.2 Collect a single absorbance spectrum based on theprocedure in Section 6.8.3 Determination of Film Thickness:8.3.1 Normalize the spectrum by bringing the lowest pointof the spectrum to zero (that is, determine the minimumabsorbance i

41、n the spectrum and offset the spectrum to bring theabsorbance to zero).8.3.2 To determine the film thickness automatically, calcu-late the difference of the absorbance at 2703 cm1minus theabsorbance at 2750 cm1. If the net difference is positive, thesample belongs to Group 1. Otherwise, it belongs t

42、o Group 2(see Fig. 1).8.3.2.1 Group 1: Thickness gage is the net absorbancedifference between 2708 cm1(isooptic point) and 2450 cm1(anchor point) (see Fig. 2).8.3.2.2 Group 2: Thickness gage is the net absorbancedifference between 2668 cm1(isooptic point) and 2450 cm1(anchor point) (see Fig. 3).5The

43、 sole source of supply for the ENB standards known to the committee at thistime is Exxon Chemical Polymer Laboratories, P.O. Box 5200, Baytown,TX 77522.The sole source of supply for the DCPD standards known to the committee at thistime is UniRoyal Chemical Company, Chemical Characterization Lab, Ben

44、sonRoad, Middlebury, CT 06749. If you are aware of alternative suppliers, pleaseprovide this information to ASTM Headquarters. Your comments will receivecareful consideration at a meeting of the responsible technical committee,1whichyou may attend.FIG. 1 FT-IR Thickness GageGroup DeterminationD 6047

45、 99 (2009)38.4 Diene Quantitation:8.4.1 Normalize the total spectrum to one optical density(OD) by multiplying the total spectrum by 1/A, where A is thenet absorbance at thickness gage.8.4.2 ENB Calculation:Calculate the peak height (in OD) of the second derivative(the second derivative algorithm sh

46、ould use nine point smooth-ing) between 1681 and 1690 cm1by applying the followingformula:Peak Ht 5 A16812 0.75 A16881 0.25 A1689! (2)This will be called the ENB peak height throughout thisprocedure. Fig. 4 gives a visual impression of a typical secondderivative spectrum of EPDM.8.4.3 Use the calibr

47、ation developed in Section 8.4.2 tocompute a mass % ENB for the sample, employing theprinciple that only interpolation (and not extrapolation) is used.If the ENB peak height determined in 8.4.5 is lower than theENB peak height of the lowest, or higher than the ENB peakheight of the highest calibrati

48、on standard, then the ENB mass% should be reported as “out of range for the calibrationemployed.”8.4.4 DCPD CalculationCalculate the peak height (inOD) of the second derivative (the second derivative algorithmshould use nine point smoothing) between 1601 and 1620 cm1by applying the following formula

49、:Peak Ht 5 A1601 A1610! (3)This will be called the DCPD peak height throughout thisprocedure.8.4.5 Use the calibration developed in Section 8.4.4 tocompute a mass % DCPD for the sample, employing theprinciple that only interpolation (and not extrapolation) is used.If the DCPD peak height determined in 8.4.5 is lower than theDCPD peak height of the lowest, or higher than the DCPDpeak height of the highest calibration standard, then the DCPDmass % should be reported as “out of range for the calibrationemployed.”9. Report9.1 Report th

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