ASTM E398-2003(2009)e1 516 Standard Test Method for Water Vapor Transmission Rate of Sheet Materials Using Dynamic Relative Humidity Measurement《用动态相对湿度测量法测定薄板材料中水蒸气透过率的标准试验方法》.pdf

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ASTM E398-2003(2009)e1 516 Standard Test Method for Water Vapor Transmission Rate of Sheet Materials Using Dynamic Relative Humidity Measurement《用动态相对湿度测量法测定薄板材料中水蒸气透过率的标准试验方法》.pdf_第1页
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ASTM E398-2003(2009)e1 516 Standard Test Method for Water Vapor Transmission Rate of Sheet Materials Using Dynamic Relative Humidity Measurement《用动态相对湿度测量法测定薄板材料中水蒸气透过率的标准试验方法》.pdf_第3页
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ASTM E398-2003(2009)e1 516 Standard Test Method for Water Vapor Transmission Rate of Sheet Materials Using Dynamic Relative Humidity Measurement《用动态相对湿度测量法测定薄板材料中水蒸气透过率的标准试验方法》.pdf_第4页
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1、Designation: E 398 03 (Reapproved 2009)1Standard Test Method forWater Vapor Transmission Rate of Sheet Materials UsingDynamic Relative Humidity Measurement1This standard is issued under the fixed designation E 398; the number immediately following the designation indicates the year oforiginal adopti

2、on 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.1NOTEUnits information was revised editorially in May 2009.1. Scope1.1 This test metho

3、d covers dynamic evaluation of the rateof transfer of water vapor through a flexible barrier materialand allows conversion to the generally recognized units ofwater vapor transmission (WVT) as obtained by various othertest methods including the gravimetric method described inTest Methods E 96/E 96M.

4、1.2 LimitationsThis test method is limited to flexiblebarrier sheet materials composed of either completely hydro-phobic materials, or combinations of hydrophobic and hydro-philic materials having at least one surface that is hydrophobic.1.3 The minimum test value obtained by this test method islimi

5、ted by the leakage of water vapor past the clamping sealsof the test instrument. A reasonable value may be approxi-mately 0.01 g/24 hm2for any WVTR method including thedesiccant procedure of Test Methods E 96/E 96M at 37.8C,and 90 % relative humidity. This limit can be checked for eachinstrument wit

6、h an impervious specimen such as aluminumfoil. Calibration procedures can compensate for the leakagerate if so stated.1.4 This test method is not suitable for referee testing at thistime, but is suitable for control testing and material compari-son.1.5 Several other ASTM test methods are available t

7、o test asimilar property. This test method is unique in that it closelyduplicates typical product storage where a transfer of moisturefrom a package into the environment is allowed to proceedwithout constantly sweeping the environmental side with drygas. Methods with constantly swept dry sides inclu

8、de TestMethods F 1249, F 372, and F 1770.1.6 The values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstandard.1.7 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of th

9、e 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:2C 168 Terminology Relating to Thermal InsulationE 96/E 96M Test Methods for Water Vapor Transmission ofMate

10、rialsF17 Terminology Relating to Flexible Barrier PackagingF 372 Test Method for Water Vapor Transmission Rate ofFlexible Barrier Materials Using an Infrared DetectionTechniqueF 1249 Test Method for Water Vapor Transmission RateThrough Plastic Film and Sheeting Using a ModulatedInfrared SensorF 1770

11、 Test Method for Evaluation of Solubility, Diffusiv-ity, and Permeability of Flexible Barrier Materials to WaterVapor33. Terminology3.1 DefinitionsFor definitions of terms concerning thetransmission of water vapor refer to Terminologies C 168 andF17.4. Summary of Test Method4.1 The specimen is mount

12、ed between two chambers, one ofrelatively high relative humidity and the other of relatively lowrelative humidity. After conditioning and isolation of cham-bers, the rate at which the moisture increases within therelatively low relative humidity chamber over a predeterminedrange of interest is measu

13、red. This rate is compared to the rate1This test method is under the jurisdiction of ASTM Committee F02 on FlexibleBarrier Packaging and is the direct responsibility of Subcommittee F02.10 onPermeation. A previous version was under the jurisdiction of ASTM CommitteeC16.Current edition approved May 1

14、, 2009. Published June 2009. Originallyapproved in 1970. Last previous edition approved in 2003 as E 398 03.2For 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 stan

15、dards Document Summary page onthe ASTM website.3Withdrawn. The last approved version of this historical standard is referencedon www.astm.org.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.for a calibration sample (calibrated gravim

16、etrically) and theWVTR is determined.5. Significance and Use5.1 No single set of test conditions can represent all climaticand use conditions, so this WVTR test method serves more tocompare different materials at a stated set of conditions than topredict their actual performance in the field under a

17、ny condi-tions.5.2 The water vapor transmission rate, under known andcarefully controlled conditions, may be used to evaluate thevapor barrier qualities of a sheet. Direct correlation of valuesobtained under different conditions of test temperature andrelative humidity will be valid provided the bar

18、rier materialunder test does not undergo changes in solid state (such as acrystalline transition or melting point) at or between theconditions of test.6. Apparatus6.1 The apparatus employed should have the followingelements:6.1.1 Test Cell, designed to clamp a defined sample areasufficiently large t

19、o be representative of the sample (an area of50 cm2has been shown to be satisfactory) between twochambers, one to contain an atmosphere of low relativehumidity (sensor-side chamber), and the other an atmosphereof higher relative humidity (humidified chamber) (see Fig. 1).6.1.2 Clamping Arrangement,

20、to allow rapid insertion andremoval of the test specimen equipped with gaskets againstwhich the specimen is held to the dry chamber by a clampingforce sufficient to resist leakage.6.1.3 Humidification Provision, for maintaining humidity inthe wet cell at the desired level. Where an atmosphere close

21、tosaturation is required, this may be achieved by means of areservoir of water or a saturated sponge provided there is aspacing 8 mm or less, between the water source and thespecimen and yet no direct contact. Other levels of relativehumidity may be obtained with saturated salt solutions or astream

22、of controlled humidified air.6.1.4 Air SourceAir dried below the operating humidityrange of the instrument (5 % relative humidity or less) shall beused as a purge for the sensor-side chamber. Various desiccantshave been found satisfactory as drying agents.6.1.5 Sensor, with rapid response and sensit

23、ivity capable ofdetecting changes in the moisture content of the gas within thedry chamber of 0.05 % relative humidity or less. This sensormay take any of a number of forms. For this purpose, thefollowing have been described in the literature: an electricalresistance element,4an electrolytic cell,5a

24、nd a beam ofinfrared radiation.66.1.6 Data Collection, a means to convert the sensorsmoisture-change response into a signal that can be used tocalculate the passage of moisture through the material undertest. This may take the form of registering the time required forthe signal to pass between two s

25、elected levels of relativehumidity, or the change in signal over a given interval of time.6.1.7 Temperature Control, a means of maintaining thetest-cell purge air and the test specimen at a constant knowntemperature within 60.1C is provided.6.1.8 Standard Films, which have been calibration by gravi-

26、metric means. Various films have been found satisfactory withvarious thicknesses of PET most commonly used.7. Test Specimens or Sample7.1 Test specimens shall be representative of the sample.7.2 Where the test specimen is completely hydrophobic, nospecial conditioning procedure is required except th

27、at thesurface exposed in the dry cell must not have visible free waterpresent.4Ranger, H. O., and Gluckman, M. J., Modern Packaging , Vol 37, No. 11, July1964, p. 153.5Toren, P. E., Analytical Chemistry, Vol 37, 1965, p. 922.6Husband, R. M., and Petter, P. J., Tappi, Vol 49, 1966, p. 565.FIG. 1 Sect

28、ional Diagram of a Typical Test Chamber Using Relative Humidity SensingE 398 03 (2009)127.3 For specimens containing a hydrophilic layer, consider-ation must be given to its orientation. If the hydrophilic layer,such as paper, is facing the dry side of the test apparatus, falsereadings may result.8.

29、 Testing Conditions and Instrument Test Range8.1 The conditions for the test are selected. In the U.S.A., astandard condition of 37.8C and 90 or 100 % relative humid-ity differential is commonly used, but the level can be whatevercondition is of interest. If a different driving force is used in thet

30、est than is to be reported, a linear adjustment can be made ifit has been demonstrated that the material does not undergosolid-state changes at these conditions. The use of such anadjustment is to be clearly stated in the report.8.2 The instrument normally uses a reservoir of water toproduce 100 % r

31、elative humidity in the high relative humiditychamber. The sensor-side chamber is purged with dry air priorto testing, but the relative humidity when measuring WVTRcan be any level desired below the level of the wet cell andwithin the calibrated range. A dry cell level of nominally 10 %or 35 % is co

32、mmonly used, but other levels can be used asdesired. The final report will state the conditions of the wet anddry chambers. If 100 % for the wet chamber and 10 % for thedry chamber are used, this will yield a driving force of 90 %relative humidity (100 % versus 10 %). The driving force forother comb

33、inations of wet and dry chamber conditions shall besimilarly calculated.8.3 The instrument is set to record the time to change from0.1 6 0.05 % below to 0.1 6 0.05 % above this nominal drychamber condition. The actual relative humidity used for theend points will be known.9. Calibration and Standard

34、ization9.1 The response of the relative humidity sensor is cali-brated with a NIST certified humidity sensor. This is accom-plished either with (1) The instrument sensor in place and ameans of exposing the certified sensor to the known humidifiedgas stream or (2) The instrument sensor removed from t

35、heinstrument and calibrated. The relative humidity used for thiscalibration shall cover the range of actual relative humidityused during testing.9.2 A standard, calibration film whose WVTR has beengravimetrically determined (referred in 10.7 as WVTRc)inaccordance with the desiccant method of Test Me

36、thods E 96/E 96M is tested in the instrument as described below. The timefor the relative humidity to change through the range selectedis noted. (Referred in 10.7 as TC= Time to move throughhumidity range for calibration film).10. Procedure10.1 Cut the specimen to the proper size for the test cellbe

37、ing used.10.2 Orient the specimen appropriately.10.2.1 In dynamic test procedures, the presence of a water-sensitive surface in the dry chamber may result in a reproduc-ible but false reading due in part to edge effects. Tests in thisorientation cannot reliably be made by this procedure.10.3 Purge t

38、he dry chamber with the dried, purge air untilthe cell and exposed specimen surface are at equilibrium at alower humidity condition than that employed for the test cycle.10.4 Shut off the purge air and isolate the sensor containingchamber from the surrounding atmosphere. Allow the cell andspecimen t

39、o begin to return to balance as moisture permeatesthrough the film under test until the initial humidity desired tostart the test is reached.10.5 Measure and record the time for the relative humiditywithin the dry chamber changes from 0.1 6 0.05 % below thenominal dry condition to 0.1 6 0.05 % above

40、 the nominalcondition. Conditions for the test samples must be the same asfor the calibration sample.10.6 Repeat steps 10.3 to 10.5 without removing the speci-men until successive readings of the time to transverse thehumidity range are uniform. The resulting value is taken as thetest result for tha

41、t specimen.10.7 The WVTR for the sample under test is calculated bycomparing its time to the time required for the calibration film.WVTRT5 WVTRC TC4 TT(1)where:WVTRT= WVTR of sample under test,WVTRC= WVTR determined gravimetrically,TT= time to move through humidity range forsample under test, andTC=

42、 time to move through humidity range for cali-bration film.11. Report11.1 The WVTR can be calculated as described in 10.7 andreported with appropriate significant figures.11.2 When suitable test limits have been developed withsamples of known acceptance, the dynamic test results in termsof seconds o

43、r humidity units may be reported directly, ifdesired.11.3 Test conditions (including temperature, relative humid-ity) are reported along with a complete description of theinstrument used.12. Precision and Bias12.1 The precision stated below is based on experience inone laboratory with the Honeywell

44、W825A WVTR unit.12.1.1 Repeatability (within a laboratory)69%.12.1.2 Comparability (between materials)not known.12.1.3 Reproducibility (between materials)610 %.12.2 Experience in another laboratory using a Honeywellunit indicates that repeatability for specimens of less than 0.3ng/(Pasm2) (0.005 per

45、m) is 625 %, for less than 1.00ng/(Pasm2) (0.02 perm) is 610 %. For 57 ng/(Pasm2) (1.0perm) is 67 %, and for greater than 57 ng/(Pa sm2) (1.0 perm)is 61.6 %.12.3 No significant interlaboratory correlations have yetbeen made, but are underway at the time of the writing of thisrevision (November 2002)

46、. A common precision and biasstatement is anticipated for a number of standard test methods,which measure WVTR using various instruments.E 398 03 (2009)1313. Keywords13.1 dynamic measurement; flexible barrier materials; rela-tive humidity; sheet material; water vapor transmissionASTM International t

47、akes no position respecting the validity of any patent rights asserted in connection with any item mentionedin this standard. Users of this standard are expressly advised that determination of the validity of any such patent rights, and the riskof infringement of such rights, are entirely their own

48、responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years andif not revised, either reapproved or withdrawn. Your comments are invited either for revision of this standard or for additional standardsand should be addr

49、essed to ASTM International Headquarters. Your comments will receive careful consideration at a meeting of theresponsible technical committee, which you may attend. If you feel that your comments have not received a fair hearing you shouldmake your views known to the ASTM Committee on Standards, at the address shown below.This standard is copyrighted by ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959,United States. Individual reprints (single or multiple copies) of this standard may be obtained by contacting ASTM at

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