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本文(ASTM D4875-2005 Standard Test Methods of Polyurethane Raw Materials Determination of the Polymerized Ethylene Oxide Content of Polyether Polyols《聚氨基甲酸乙酯原材料的标准试验方法 聚醚多元醇的聚合环氧乙烷含量的.pdf)为本站会员(王申宇)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 D4875-2005 Standard Test Methods of Polyurethane Raw Materials Determination of the Polymerized Ethylene Oxide Content of Polyether Polyols《聚氨基甲酸乙酯原材料的标准试验方法 聚醚多元醇的聚合环氧乙烷含量的.pdf

1、Designation: D 4875 05Standard Test Methods ofPolyurethane Raw Materials: Determination of thePolymerized Ethylene Oxide Content of Polyether Polyols1This standard is issued under the fixed designation D 4875; the number immediately following the designation indicates the year oforiginal adoption or

2、, 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. Scope*1.1 Test Method AProton Nuclear Magnetic ResonanceSpectroscopy (1H NMR) measures

3、polymerized ethylene oxide(EO) in ethylene oxide-propylene oxide polyethers used inflexible urethane foams and nonfoams. It is suitable for diolsmade from the commonly used initators and containing EOpercentages above five. For triols initiated with glycerin andtrimethylol propane, an uncorrected EO

4、 value is obtained sinceboth initiators have protons that contribute to the EO measure-ment.1.2 Test Method BCarbon-13 Nuclear Magnetic Reso-nance Spectroscopy (13C NMR) measures the polymerized EOcontent of ethylene oxide-propylene oxide polyethers used inflexible urethane foams and nonfoams. It is

5、 suitable for diolsand triols made from the commonly used initiators andcontaining EO percentages above five.NOTE 1There are no equivalent ISO standards.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 th

6、is 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 883 Terminology Relating to PlasticsE 386 Practice for Data Presentation Relating to High-Resolution Nuclear Magnetic

7、 Resonance (NMR) Spectros-copyE 691 Practice for Conducting an Interlaboratory Study toDetermine the Precision of a Test Method3. Terminology3.1 DefinitionsTerminology in these test methods followsthe standard terminology defined in Terminology D 883 andPractice E 386.3.2 Definitions of Terms Specif

8、ic to This Standard:3.2.1 heteric polyol, na polyether polyol in which ethyl-ene oxide and propylene oxide units are randomly arranged.3.2.2 initiator, na substance with which ethylene oxide orpropylene oxide reacts to form a polyether polyol.3.2.2.1 DiscussionOne initiator unit is incorporated into

9、each polymer or oligomer molecule.4. Summary of Test Methods4.1 Test Method AThe1H NMR spectra of polyetherpolyols show two groups of resonance peaks corresponding tothe methyl protons of propylene oxide (PO) and to themethylene and methine protons of EO and PO. The EO peakarea is obtained by subtra

10、cting the area of the PO methyl peaksfrom the area of the methylene and methine peaks. Initiatorsother than glycols of EO and PO give systematic errors (seeNote 2).NOTE 2The initiator error can be estimated by calculating thetheoretical contribution of initiator protons to the EO and PO peak areas.4

11、.2 Test Method BThe13C NMR spectra of polyetherscontain multiple resonances arising from initiator, alkoxide,alkoxide sequencing, and end-group distribution. EO contentcan be determined relative to PO or relative to PO and triolinitiator. In the former, the area of the EO peaks is ratioed to thetota

12、l area of alkoxide methylene and methine carbons. In thelatter, the area of the EO peaks is ratioed to the total area ofalkoxide methylene and methine carbons and two initiatorcarbons. This test method describes the determination of EOrelative to PO only.5. Significance and Use5.1 Measurements of EO

13、 content correlate with polyolreactivity (as related to primary hydroxyl content), linearity offoam rise, and the hydrophilicity of the polyol and finalproduct.1These test methods are under the jurisdiction of ASTM Committee D20 onPlastics and is the direct responsibility of Subcommittee D20.22 on C

14、ellularPlastics.Current edition approved July 1, 2005. Published August 2005. Originallyapproved in 1988. Last previous edition approved in 1999 as D 4875 - 99.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of

15、 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, PO Box C700, West Conshohocken, PA 19428-2959, United States.5.2 Statistical data

16、 suggest that the13C NMR test method isthe preferred method for measuring low levels (less than 10 %)of polymerized EO in polyols.5.3 The1H and13C NMR test methods give different resultswhich are highly correlated. The equation of the linear regres-sion is:%EOproton5 1.031 %EOcarbon213! 1 0.883 (1)T

17、he standard deviation of the regression is 0.49 and themultiple R-square is 0.9990.TEST METHOD AHYDROGEN-1 NMR6. Equipment6.1 NMR Continuous Wave (CW) or Fourier Transform(FT) Spectrometer, with an1H resonance frequency of 60 MHzor higher.6.2 NMR Sample Tubes, having an outside diameter of atleast 5

18、 mm.7. Reagents and Materials7.1 All reagents are to be ACS-certified or spectroscopicgrade unless otherwise specified.7.2 Trifluoroacetic Acid.7.3 Chloroform-d1, NMR-grade, containing tetramethylsi-lane as an internal standard.8. Standard8.1 This test method does not require standards. To evaluatet

19、he test method, standards can be prepared from commerciallyavailable poly(propylene oxide) and poly(ethylene oxide).9. Preparation of Sample9.1 Mix a few drops of polyol with deuterated chloroform toprepare 1 mL of an approximately 10 %3polyol solution. Adda drop of trifluoroacetic acid, mix well, a

20、nd transfer to an NMRtube.10. Instrument Preparation10.1 The instrument settings given here are for a VarianEM-390 CW spectrometer, a Varian XL-100 FT spectrometer,and a Bruker AC 300 FT spectrometer. Instrument preparationcan vary with the spectrometer. For a description of a particularspectrometer

21、 and suitable parameters, refer to the manufactur-ers operating manual.10.2 Typical EM-390 console settings are as follows:Lock optional, TMSOffset 0Sweep width 5 ppmSweep time 2 minIntegration time 2 minRf Filter openRF power 0.05 mG10.3 Typical XL-100 console settings are as follows:Lock chlorofor

22、m-d-1Pulse angle 90Pulse delay 0Spectral width 10 ppmAcquisition time 4 sData points 8KNumber of transients 12810.4 Typical 300 MHz console settings are as follows:Lock chloroform-d-1Pulse angle 90Pulse delay 5 sSpectral width 10 ppmAcquisition time 5.3 sData points 32KNumber of transients 6411. NMR

23、 Analysis11.1 Place the NMR tube containing the polyol solution intothe spectrometer probe and optimize the field homogeneity. ForCW NMR, scan the spectrum from 5 to 0 ppm. Integrate thespectrum five times at a power level below that which causessaturation. See Figs. 1 and 2 for examples of polyol s

24、pectrawith high and low EO concentrations, respectively.11.2 For FT NMR, acquire the desired number of transientsand transform the free induction decay signal to the frequencydomain spectrum. Integrate the peaks as shown in Figs. 1 and2.12. Calculation12.1 Determine the areas of the PO methyl proton

25、s (area A)and the EO and PO methylene and methine protons (area B)from the integrals. Calculate the percent EO from the followingequation:EO 533 3 Z33 3 Z 1 583 100 (2)where:Z =(B/A)133 = g EO/mole after weighting for the number of EOprotons vs. PO protons, and58 = g PO/mole.13. Report13.1 Report re

26、sults to the nearest tenth percent EO.14. Precision and Bias14.1 Table 1 is based on a round robin conducted in 1981 inaccordance with Practice E 691, involving six polyol sampleswith EO content ranging from 6 to 45 weight % (see Table 2)tested by eight laboratories. For each polyol, all of the samp

27、lesswere prepared at one source, but the individual specimens wereprepared at the laboratories that tested them. Each test resultwas obtained from one individual NMR run. Each lab obtainedtwo test results for each material on two separate days.14.2 In Table 1, for the polyols indicated and for test

28、resultsthat are derived from testing two specimens of each polyol oneach of two separate days:14.2.1 Sris the within-laboratory standard deviation of theaverage: Ir= 2.83 Sr(see 14.2.3 for application of Ir).14.2.2 SRis the between-laboratory standard deviation ofthe average; IR= 2.83 SR(see 14.2.4

29、for application of IR).14.2.3 RepeatabilityIn comparing two test results for thesame polyol, obtained by the same operator using the same3Highfield, FT spectrometers require less concentrated solutions.A1 % solutionis more appropriate for such spectrometers.D4875052equipment on the same day, those t

30、est results are to be judgednot equivalent if they differ by more than the Irvalue for thatpolyol and condition.14.2.4 ReproducibilityIn comparing two test results forthe same polyol, obtained by different operators using differentequipment on different days, those test results are to be judgednot e

31、quivalent if they differ by more than the IRvalue for thatpolyol and condition. (This applies between different labora-tories or between equipment within the same laboratory.)14.2.5 Any judgment in accordance with 14.2.3 and 14.2.4will have an approximate 95 % (0.95) probability of beingcorrect.14.2

32、.6 Other polyols can give somewhat different results.14.3 For further information on the methodology used inthis section see Practice E 691.14.4 There are no recognized standards on which to base anestimate of bias for this test method.14.5 Six CW spectrometers (60 and 90 MHz) were used inthis study

33、 and two FT instruments (100 MHz). The participat-ing companies were Dow, Union Carbide, Mobay, Texaco,Olin, Arco, and Upjohn.TEST METHOD BCARBON-13 NMR15. Equipment15.1 Fourier-Transform NMR (FT-NMR) Spectrometer,with carbon-13 capability. The spectrometer is to have aminimum signal-to-noise ratio

34、of 70 + 1.15.2 NMR Sample Tubes, with diameters of 5 mm or more.16. Reagents16.1 All reagents are to be spectroscopic grade deuteratedsolvents.FIG. 11H NMR Spectrum of a Polyol Containing 45 % EOFIG. 21H NMR Spectrum of a Polyol Containing 8 % EOUncorrected for Glycerin InitiatorTABLE 11H Method, %

35、EO Content, for Eight Laboratories, SixPolyolsSample Mean SrSRIrIR1 10.85 0.3207 1.045 0.898 2.9262 16.40 0.3951 1.086 1.106 3.0413 46.05 1.009 1.680 2.825 4.7044 7.97 0.6809 1.557 1.907 4.3605 13.61 0.5831 1.225 1.641 3.4306 24.64 0.4496 0.5573 1.259 1.560TABLE 2 Description of Samples AnalyzedSamp

36、leApproximateMolecularWeightNominalFunctionalityPolymerized EODistributionApproximateWeight, % EO1 4000 diol cap 102 2800 diol cap 153 4000 diol random/cap 454 3000 triol random 65 3200 triol random 106 6500 triol cap 24D487505316.2 Deuterated acetone, NMR-grade, containing tetram-ethylsilane (TMS)

37、as an internal standard.17. Standards17.1 This test method does not require standards. Standardsprepared from poly(propylene oxide) and poly(ethylene oxide)can be used to approximate the spectrum of block copolymers.They are not suitable for heteric polyols.18. Preparation of Sample18.1 Mix 3 mL of

38、polyol with 1 to 2 mL of deuteratedacetone. Transfer an appropriate amount to an NMR tube.19. Instrument Preparation19.1 The settings presented here apply to a Varian CFT-20spectrometer and a Bruker AC 300 spectrometer. Instrumentsettings for other spectrometers can be different. Consult themanufact

39、urers operating manual.19.2 Typical CFT-20 spectrometer parameters are as fol-lows:Lock acetone d-6Pulse angle 60Acquisition time 2 sPulse delay 0 sSpectral width 2000 HzData points 8KFT transform 8KExponential weighting function 0.8H-1 decoupler on19.3 Typical AC 300 spectrometer parameters are as

40、fol-lows:Lock acetone d-6Pulse angle 90Acquisition time 2 sPulse delay 5 sSpectral width 100 ppmData points 32KH-1 decoupler on, or gated decoupling20. NMR Analysis20.1 Place the NMR tube containing the sample solutioninto the spectrometer probe. After a stable lock is obtained,optimize the field ho

41、mogeneity. Acquire a sufficient number oftransients to obtain satisfactory signal to noise, usually 1000 to2000. Transform the weighted free induction decay signal tothe frequency domain spectrum. The PO methine and methyl-ene carbon resonances range from 76.6 to 72.8 and 67.0 to 65.2ppm (TMS refere

42、nce). Chemical shifts for the EO peaks rangefrom 72.6 to 68.3 and 62.0 to 61.0 ppm. See Figs. 3 and 4 forexamples of capped polyols.20.2 Integrate the PO methine and methylene carbons andthe EO carbons as shown in Fig. 4.21. Calculation21.1 Determine the areas of the PO peaks (B8 +C8 F,Fig.4) and th

43、e areas of the EO peaks (B+C+F,Fig. 4). (See Note3.) Calculate the PO to EO ratio from the following equation:PO/EO 5B8 1 C8 2 FB 1 C 1 F(3)where:B8 = area of PO methylene and methine carbons,B = area of EO carbons,C8 = area of PO terminal methine carbon,C = total area of terminal EO carbons, andF =

44、 area of terminal EO carbon of an EO block.NOTE 3Areas C and F are only significant in EO-capped polyols.Area F corrects for the beta carbon of a terminal EO block which resonatesat 73.1 ppm and integrates as a PO carbon.21.2 Determine the weight percent EO using the PO/EOratio calculated in 21.1:EO

45、 54458PO/EO! 1 443 100 (4)where:44 = g EO/mole, and58 = g PO/mole.22. Report22.1 Report data to nearest tenth percent EO.23. Precision and Bias423.1 Table 3 is based on a round robin conducted in 1981 inaccordance with Practice E 691, involving six polyol sampleswith EO content ranging from 6 to 45

46、weight % (see Table 4)tested by eight laboratories. For each polyol, all of the sampleswere prepared at one source, but the individual specimens wereprepared at the laboratories that tested them. Each test resultwas obtained from one individual NMR run. Each lab obtainedtwo test results for each mat

47、erial on two separate days.23.2 In Table 3, for the polyols indicated and for test resultsthat are derived from testing two specimens of each polyol oneach of two separate days:23.2.1 Sris the within-laboratory standard deviation of theaverage: Ir= 2.83 Sr(see 23.2.3 for application of Ir).23.2.2 SR

48、is the between-laboratory standard deviation ofthe average; IR= 2.83 SR(see 23.2.4 for application of IR).23.2.3 RepeatabilityIn comparing two test results for thesame polyol, obtained by the same operator using the sameequipment on the same day, those test results are to be judgednot equivalent if

49、they differ by more than the Irvalue for thatpolyol and condition.23.2.4 ReproducibilityIn comparing two test results forthe same polyol, obtained by different operators using differentequipment on different days, those test results are to be judgednot equivalent if they differ by more than the IRvalue for thatpolyol and condition. (This applies between different labora-tories or between equipment within the same laboratory.)23.2.5 Any judgment in accordance with 23.2.3 and 23.2.4will have an approximate 95 % (0.95) probability of beingcorrect.23.2.6 Other

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