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本文(ASTM D3800-1999(2004) Standard Test Method for Density of High-Modulus Fibers《高模数纤维密度的标准试验方法》.pdf)为本站会员(visitstep340)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 D3800-1999(2004) Standard Test Method for Density of High-Modulus Fibers《高模数纤维密度的标准试验方法》.pdf

1、Designation: D 3800 99 (Reapproved 2004)Standard Test Method forDensity of High-Modulus Fibers1This standard is issued under the fixed designation D 3800; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A

2、 number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1. Scope1.1 This test method covers the determination of the den

3、sityof high-modulus fibers and is applicable to both continuous anddiscontinuous fibers.1.2 The values stated in SI units are to be regarded asstandard.1.3 This standard may involve hazardous materials, opera-tions, and equipment. This standard does not purport toaddress all of the safety concerns,

4、if any, associated with itsuse. It is the responsibility of the user of this standard toestablish appropriate safety and health practices and deter-mine the applicability of regulatory limitations prior to use.See Section 9 for additional information.2. Referenced Documents2.1 ASTM Standards:2D 891

5、Test Methods for Specific Gravity, Apparent, ofLiquid Industrial ChemicalsD 1505 Test Method for Density of Plastics by the Density-Gradient TechniqueD 3878 Terminology for Composite MaterialsD 5229/D 5229M Test Method for Moisture AbsorptionProperties and Equilibrium Conditioning of Polymer Ma-trix

6、 Composite MaterialsD 6308 Guide for Identification of Composite Materials inComputerized Material Property Databases3E 12 Terminology Relating to Density and Specific Gravityof Solids, Liquids, and Gases3E 177 Practice for Use of the Terms Precision and Bias inASTM Test MethodsE 1471 Guide for Iden

7、tification of Fibers, Fillers, and CoreMaterials in Computerized Material Property Databases3. Terminology3.1 DefinitionsTerminology D 3878 defines terms relatingto composite materials. Terminology E 12 defines terms relat-ing to density. Practice E 177 defines terms relating to statis-tics. In the

8、event of a conflict between terms, TerminologyD 3878 shall have precedence over other standards.3.2 Symbols:rs= density of standardrl= density of liquidrf= density of fiberrmf= density of the measured fiber containing sizingrml= density of the measured liquid containing sur-factantrsur= density of s

9、urfactantrsz= density of sizingrw= density of waters = standard deviationM1= weight of suspension wire in airM2= weight of suspension wire in liquid (to immer-sion point)M3= weight of suspension wire plus item whosedensity is to be determined (in air)M4= weight of suspension wire plus item whosedens

10、ity is to be determined (in liquid)M3M1= weight of item for density to be determined inairM4M2= weight of item for density to be determined inliquid4. Summary of Test Method4.1 GeneralUsing random selection techniques, a suitablesize sample of high-modulus fiber can be tested by any of thethree proc

11、edures described in this test method. Procedure Ausing water with a surfactant as the liquid medium is preferreddue to environmental and safety considerations. The othermethods shall not be used if Procedure A is adequate. Interimuse of Procedures B or C is allowed while a comparison ismade to resul

12、ts using Procedure A.4.2 Procedure ABuoyancy (Archimedes) Method:4.2.1 The sample is weighed in air and weighed in a liquidthat will thoroughly wet the sample and is of a lower density.1This test method is under the jurisdiction of ASTM Committee D30 onComposite Materials and is the direct responsib

13、ility of Subcommittee D30.03 onConstituent/Precursor Properties.Current edition approved Oct. 1, 2004. Published October 2004. Originallyapproved in 1979. Last previous edition approved in 1999 as D 3800 99.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer

14、 Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Withdrawn.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.4.2.2 The difference in weig

15、ht of the sample in the twomedia is the buoyancy force. This force is converted to samplevolume by dividing it by the liquid density. The sample weightin air divided by the sample volume equals the sample density.4.3 Procedure BSink-Float Technique:4.3.1 The sample is placed in a container containin

16、g a liquidthat will thoroughly wet the sample and is of a lower density.A liquid of higher density than the sample and miscible withthe first liquid is then added slowly to the container underconstant gentle mixing until the sample is suspended in themixture.4.3.2 The density of the resulting mixed

17、liquid is deter-mined using either a hydrometer or a pycnometer. The densityof the sample is equal to the density of the liquid in which thesample is suspended.4.4 Procedure CFor an alternative method, which may beused, see Test Method D 1505.5. Significance and Use5.1 Fiber density is useful in the

18、 evaluation of new materialsat the research and development level and is one of the materialproperties normally given in fiber specifications.5.2 Fiber density is used to determine fiber strength andmodulus both of a fiber bundle and an individual filament.These properties are based on load or modul

19、us slope over aneffective area. Fiber density may be used with lineal mass ofthe fiber to give an approximation of effective tow area. Towarea divided by the average number of filaments in a tow givesan approximation of the effective area of an individual fila-ment.5.3 Fiber density is used as a con

20、stituent property whendetermining reinforcement volume and void volume based onreinforcement mass and laminate density.6. Interferences6.1 General (All Methods):6.1.1 TemperatureThe temperature of the liquid shallremain constant within a tolerance of 61C, since liquiddensity changes with temperature

21、.6.1.2 Sample Wetting (Entrapped Air)Since this testmethod is very dependent on buoyancy, any entrapped air inthe sample will change the measured density and not give atrue material density. Ensure visually that the sample does notcontain entrapped air bubbles.6.1.3 Homogenous MixtureThe density of

22、the liquid shallbe uniform, through suitable agitation.6.1.4 Removal of SizingA bias will exist if sizing is notremoved. In this case, the measured fiber density is a combi-nation of the density of the fiber and the sizing. The followingequation may be used to calculate the effect of the sizing on t

23、hedensity of the material.rmf5100 x! rf1 xrsz!100(1)wherex = mass of sizing as a percentage of the total mass of themeasured fiber.6.1.5 Effect of Surfactant DensityThe addition of a sur-factant to a liquid may produce bias if not considered. Theeffect may be shown by the following equation:rml5100

24、x! rl1 xrsur!100(2)wherex = mass of surfactant as a percentage of total mass of themeasured liquid.6.2 (Method A):6.2.1 Immersion PointThe distance the sample is loweredinto the liquid and the overall liquid level should be the samethroughout determinations for Procedure A. This may be doneby puttin

25、g a line for the desired liquid level on the outside ofthe container. The sample size should be within a few gramsfrom one sample to another.7. Apparatus7.1 General:7.1.1 Thermometer, capable of reading the test temperatureduring the test to 0.1C.7.1.2 AgitatorStirrer or mixing propeller capable ofs

26、lowly agitating solution without test interference.7.2 Procedure A:7.2.1 Balance, analytical, capable of weighing to 0.0001 g,adapted for suspension weighing.7.2.2 Balance Stand, depending on the type of balance used;two recommended stands are shown in Figs. 1 and 2.7.2.3 Laboratory Jack, heavy-duty

27、 precision.7.2.4 Suspension Wire, nickel or stainless steel, approxi-mately 0.4 mm in diameter, cut and shaped to match the systemused.7.2.5 Vacuum Desiccator (with Pump)An airtight con-tainer in which a low vacuum (less than 75 kPa 22 in. Hg) canbe maintained.7.2.6 Density StandardA solid piece of

28、borosilicate glass(density approximately 2.2 g/mL) of known density to foursignificant figures as determined by water immersion.4A NISTstandard of this type (SRM 1825) is recommended.7.2.7 Vacuum Pump or Aspirator, used to provide vacuum-to-vacuum desiccator.7.2.8 Container, glass or other transpare

29、nt container resis-tant to a liquid medium is recommended.7.2.9 Immersion LiquidThe liquid used shall not dissolveor otherwise affect the specimen, but should wet it and have aspecific gravity less than that of the specimen.5The specificgravity of the immersion liquid shall be determined shortlybefo

30、re and after each use.7.3 Procedure B:7.3.1 Container, glass or other transparent container resis-tant to liquids used is recommended.7.3.2 Immersion LiquidsSee Notes 1 and 2. One liquidshould have a density less than the fiber, and the other greater,so when mixed they have the same density as the f

31、iber. Two4A No. 19 “Pyrex” glass stopper with a 3.175-mm diameter hole bored throughthe top for suspension purposes has proved satisfactory.5One suitable surfactant to use with water is Triton X manufactured by Rohmand Haas, Philadelphia, PA.D 3800 99 (2004)2suitable liquids are trichloroethylene an

32、d dibromomethane(having densities of 1.464 and 2.477 g/mL). Both of theseliquids pose hazards (see Section 8).7.3.3 Hydrometer, capable of reading liquid density.7.4 Procedure CUse the apparatus described in TestMethod D 1505.NOTE 1Standard deionized or distilled water need not be measured,but can b

33、e taken as a value from standard tables.6For the determinationof the specific gravity of the liquid, the use of a standard plummet ofknown volume (Note 3) or Test Method A, C, or D of Test Methods D 891,using the modifications required to give specific gravity at 23C isrecommended. One suggested pro

34、cedure is the following: If a constanttemperature water bath is not available, determine the weight of the clean,dry pycnometer with the thermometer to the nearest 0.1 mg on ananalytical balance. Fill the pycnometer with water cooler than 23C. Insertthe thermometer stopper causing excess water to be

35、 expelled through theside arm. Permit the filled bottle to warm in air until the thermometerreads 23C. Remove the drop of water at the tip of the side arm with a bitof filter paper, taking care not to draw any liquid from within the capillary.Place the cap over the side arm, wipe the outside careful

36、ly, and weigh thefilled bottle again to the nearest 0.2 mg. Empty the pycnometer, dry, andthen fill and weigh with the other liquid in the same manner as was donewith the water. Calculate the specific gravity at 23C of the liquid, rf,asfollows:rl5 b e!/w e! (3)where:e = apparent weight of empty pycn

37、ometer,w = apparent weight of pycnometer filled with water at 23C, andb = apparent weight of pycnometer filled with liquid at 23C.If a constant-temperature bath is available, a pycnometer without athermometer may be used.NOTE 2One standard, which has been found satisfactory for thispurpose, is the R

38、eimann Thermometer Plummet. These are normallycalibrated for measurements at temperatures other than 23/23C, so thatrecalibration is necessary for the purpose of these test methods. Calibra-tions at intervals of one week are recommended.8. Reagents8.1 Purity of ReagentsAs a minimum, a technical grad

39、ereagent is required to provide accurate results. However, whenresolving disputes or performing subsequent analysis of extractor residue, a reagent grade reagent shall be used. Unlessotherwise indicated, it is intended that the reagents conform to6One such reference is in CRC Handbook of Chemistry a

40、nd Physics, CRC PressInc., Boca Raton, FL.FIG. 1 Density Apparatus (Alternative)D 3800 99 (2004)3the specifications of the Committee on Analytical Reagents ofthe American Chemical Society where such specifications areavailable.78.1.1 Water,H2O, (deionized or distilled and degassed),may contain a wet

41、ting agent such as glycerin or surfactant. Thisis the safest reagent found, and recommended for Procedure A.NOTE 3Reagents in 8.1.2-8.1.6 should be used if water is found to beunsatisfactory to accurately determine the density of the fiber. Otherreagents are listed in order of known hazard or toxici

42、ty.8.1.2 Acetone (2-Propanone),CH3CHOCH3.8.1.3 Methanol (Methyl Alcohol),CH3OH.8.1.4 o-dichlorobenzene,CH4Cl2.(Warningo-dichlorobenzene has been identified as toxic and an irritant.)8.1.5 Dibromomethane,CH2Br2.(WarningAs of the ap-proval date of this test method, dibromomethane was listed bythe Inte

43、rnational Agency for Research on Cancer in Group 2Cas “toxic.”)8.1.6 Trichloroethylene, CHClCCl2.(WarningAs of theapproval date of this test method, trichloroethylene was listedby the International Agency for Research on Cancer in Group2D as a “cancer suspect agent” and mutagen.)9. Hazards9.1 This t

44、est method should be used only by laboratoryworkers with general training in the safe handling of chemi-cals. A source of useful information is Prudent Practices in theLaboratory: Handling and Disposal of Chemicals, NationalAcademy Press, 1995, 448 pp., ISBN 0-309-05229-7.(WarningIn addition to othe

45、r warnings, consult the appro-priate material safety data sheet for each material used,including reagent materials and test specimen materials, forspecific recommendations on safety and handling.)10. Test Specimen10.1 A minimum of three test specimens shall be tested foreach sample.10.2 The test spe

46、cimen weight shall be a minimum of 0.5 g.11. Calibration and Standardization11.1 All measuring equipment shall have certified calibra-tions that are current at the time of use of the equipment. Thecalibration documentation shall be available for inspection.12. Conditioning12.1 Test Method D 5229/D 5

47、229M may be used to deter-mine equilibrium dryness of a fiber. In general, no specialconditioning is needed for carbon fiber, less than1hat100Cis needed for glass fibers, and approximately4hat100C isneeded for aramid fibers.12.2 Condition liquids to a test temperature, typically 23C.7Reagent Chemica

48、ls, American Chemical Society 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 F

49、ormulary, U.S. Pharmacopeial Convention, Inc. (USPC), Rockville,MD.FIG. 2 Density Apparatus (Alternative)D 3800 99 (2004)413. Procedure13.1 Procedure ABuoyancy (Archimedes) Method):13.1.1 Equipment Assembly:13.1.1.1 The assembly of the apparatus is shown in Fig. 1 orFig. 2. The balance stand must be firmly secured to a stablesurface with the balance resting on the stand directly over thehole provided for the suspension system. Place the immersionfluid container on the laboratory jack directly under thesuspension hook.13.1.1.

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